Struct stm32ral::stm32mp::peripherals::bsec::RegisterBlock

#[repr(C)]
pub struct RegisterBlock {

    pub BSEC_OTP_CONFIG: RWRegister<u32>,
    pub BSEC_OTP_CONTROL: RWRegister<u32>,
    pub BSEC_OTP_WRDATA: RWRegister<u32>,
    pub BSEC_OTP_STATUS: RORegister<u32>,
    pub BSEC_OTP_LOCK: RWRegister<u32>,
    pub BSEC_DENABLE: RWRegister<u32>,
    pub BSEC_OTP_DISTURBED0: RORegister<u32>,
    pub BSEC_OTP_DISTURBED1: RORegister<u32>,
    pub BSEC_OTP_DISTURBED2: RORegister<u32>,
    pub BSEC_OTP_ERROR0: RORegister<u32>,
    pub BSEC_OTP_ERROR1: RORegister<u32>,
    pub BSEC_OTP_ERROR2: RORegister<u32>,
    pub BSEC_OTP_WRLOCK0: RORegister<u32>,
    pub BSEC_OTP_WRLOCK1: RORegister<u32>,
    pub BSEC_OTP_WRLOCK2: RORegister<u32>,
    pub BSEC_OTP_SPLOCK0: RWRegister<u32>,
    pub BSEC_OTP_SPLOCK1: RWRegister<u32>,
    pub BSEC_OTP_SPLOCK2: RWRegister<u32>,
    pub BSEC_OTP_SWLOCK0: RWRegister<u32>,
    pub BSEC_OTP_SWLOCK1: RWRegister<u32>,
    pub BSEC_OTP_SWLOCK2: RWRegister<u32>,
    pub BSEC_OTP_SRLOCK0: RWRegister<u32>,
    pub BSEC_OTP_SRLOCK1: RWRegister<u32>,
    pub BSEC_OTP_SRLOCK2: RWRegister<u32>,
    pub BSEC_JTAGIN: RORegister<u32>,
    pub BSEC_JTAGOUT: RWRegister<u32>,
    pub BSEC_SCRATCH: RWRegister<u32>,
    pub BSEC_OTP_DATA0: RWRegister<u32>,
    pub BSEC_OTP_DATA1: RWRegister<u32>,
    pub BSEC_OTP_DATA2: RWRegister<u32>,
    pub BSEC_OTP_DATA3: RWRegister<u32>,
    pub BSEC_OTP_DATA4: RWRegister<u32>,
    pub BSEC_OTP_DATA5: RWRegister<u32>,
    pub BSEC_OTP_DATA6: RWRegister<u32>,
    pub BSEC_OTP_DATA7: RWRegister<u32>,
    pub BSEC_OTP_DATA8: RWRegister<u32>,
    pub BSEC_OTP_DATA9: RWRegister<u32>,
    pub BSEC_OTP_DATA10: RWRegister<u32>,
    pub BSEC_OTP_DATA11: RWRegister<u32>,
    pub BSEC_OTP_DATA12: RWRegister<u32>,
    pub BSEC_OTP_DATA13: RWRegister<u32>,
    pub BSEC_OTP_DATA14: RWRegister<u32>,
    pub BSEC_OTP_DATA15: RWRegister<u32>,
    pub BSEC_OTP_DATA16: RWRegister<u32>,
    pub BSEC_OTP_DATA17: RWRegister<u32>,
    pub BSEC_OTP_DATA18: RWRegister<u32>,
    pub BSEC_OTP_DATA19: RWRegister<u32>,
    pub BSEC_OTP_DATA20: RWRegister<u32>,
    pub BSEC_OTP_DATA21: RWRegister<u32>,
    pub BSEC_OTP_DATA22: RWRegister<u32>,
    pub BSEC_OTP_DATA23: RWRegister<u32>,
    pub BSEC_OTP_DATA24: RWRegister<u32>,
    pub BSEC_OTP_DATA25: RWRegister<u32>,
    pub BSEC_OTP_DATA26: RWRegister<u32>,
    pub BSEC_OTP_DATA27: RWRegister<u32>,
    pub BSEC_OTP_DATA28: RWRegister<u32>,
    pub BSEC_OTP_DATA29: RWRegister<u32>,
    pub BSEC_OTP_DATA30: RWRegister<u32>,
    pub BSEC_OTP_DATA31: RWRegister<u32>,
    pub BSEC_OTP_DATA32: RWRegister<u32>,
    pub BSEC_OTP_DATA33: RWRegister<u32>,
    pub BSEC_OTP_DATA34: RWRegister<u32>,
    pub BSEC_OTP_DATA35: RWRegister<u32>,
    pub BSEC_OTP_DATA36: RWRegister<u32>,
    pub BSEC_OTP_DATA37: RWRegister<u32>,
    pub BSEC_OTP_DATA38: RWRegister<u32>,
    pub BSEC_OTP_DATA39: RWRegister<u32>,
    pub BSEC_OTP_DATA40: RWRegister<u32>,
    pub BSEC_OTP_DATA41: RWRegister<u32>,
    pub BSEC_OTP_DATA42: RWRegister<u32>,
    pub BSEC_OTP_DATA43: RWRegister<u32>,
    pub BSEC_OTP_DATA44: RWRegister<u32>,
    pub BSEC_OTP_DATA45: RWRegister<u32>,
    pub BSEC_OTP_DATA46: RWRegister<u32>,
    pub BSEC_OTP_DATA47: RWRegister<u32>,
    pub BSEC_OTP_DATA48: RWRegister<u32>,
    pub BSEC_OTP_DATA49: RWRegister<u32>,
    pub BSEC_OTP_DATA50: RWRegister<u32>,
    pub BSEC_OTP_DATA51: RWRegister<u32>,
    pub BSEC_OTP_DATA52: RWRegister<u32>,
    pub BSEC_OTP_DATA53: RWRegister<u32>,
    pub BSEC_OTP_DATA54: RWRegister<u32>,
    pub BSEC_OTP_DATA55: RWRegister<u32>,
    pub BSEC_OTP_DATA56: RWRegister<u32>,
    pub BSEC_OTP_DATA57: RWRegister<u32>,
    pub BSEC_OTP_DATA58: RWRegister<u32>,
    pub BSEC_OTP_DATA59: RWRegister<u32>,
    pub BSEC_OTP_DATA60: RWRegister<u32>,
    pub BSEC_OTP_DATA61: RWRegister<u32>,
    pub BSEC_OTP_DATA62: RWRegister<u32>,
    pub BSEC_OTP_DATA63: RWRegister<u32>,
    pub BSEC_OTP_DATA64: RWRegister<u32>,
    pub BSEC_OTP_DATA65: RWRegister<u32>,
    pub BSEC_OTP_DATA66: RWRegister<u32>,
    pub BSEC_OTP_DATA67: RWRegister<u32>,
    pub BSEC_OTP_DATA68: RWRegister<u32>,
    pub BSEC_OTP_DATA69: RWRegister<u32>,
    pub BSEC_OTP_DATA70: RWRegister<u32>,
    pub BSEC_OTP_DATA71: RWRegister<u32>,
    pub BSEC_OTP_DATA72: RWRegister<u32>,
    pub BSEC_OTP_DATA73: RWRegister<u32>,
    pub BSEC_OTP_DATA74: RWRegister<u32>,
    pub BSEC_OTP_DATA75: RWRegister<u32>,
    pub BSEC_OTP_DATA76: RWRegister<u32>,
    pub BSEC_OTP_DATA77: RWRegister<u32>,
    pub BSEC_OTP_DATA78: RWRegister<u32>,
    pub BSEC_OTP_DATA79: RWRegister<u32>,
    pub BSEC_OTP_DATA80: RWRegister<u32>,
    pub BSEC_OTP_DATA81: RWRegister<u32>,
    pub BSEC_OTP_DATA82: RWRegister<u32>,
    pub BSEC_OTP_DATA83: RWRegister<u32>,
    pub BSEC_OTP_DATA84: RWRegister<u32>,
    pub BSEC_OTP_DATA85: RWRegister<u32>,
    pub BSEC_OTP_DATA86: RWRegister<u32>,
    pub BSEC_OTP_DATA87: RWRegister<u32>,
    pub BSEC_OTP_DATA88: RWRegister<u32>,
    pub BSEC_OTP_DATA89: RWRegister<u32>,
    pub BSEC_OTP_DATA90: RWRegister<u32>,
    pub BSEC_OTP_DATA91: RWRegister<u32>,
    pub BSEC_OTP_DATA92: RWRegister<u32>,
    pub BSEC_OTP_DATA93: RWRegister<u32>,
    pub BSEC_OTP_DATA94: RWRegister<u32>,
    pub BSEC_OTP_DATA95: RWRegister<u32>,
    pub BSEC_HWCFGR: RORegister<u32>,
    pub BSEC_VERR: RORegister<u32>,
    pub BSEC_IPIDR: RORegister<u32>,
    pub BSEC_SIDR: RORegister<u32>,
    // some fields omitted
}

Fields

BSEC_OTP_CONFIG: RWRegister<u32>

BSEC OTP configuration register

BSEC_OTP_CONTROL: RWRegister<u32>

BSEC OTP control register

BSEC_OTP_WRDATA: RWRegister<u32>

BSEC OTP write data register

BSEC_OTP_STATUS: RORegister<u32>

BSEC OTP status register

BSEC_OTP_LOCK: RWRegister<u32>

BSEC OTP lock configuration register

BSEC_DENABLE: RWRegister<u32>

reset value depends on OTP secure mode according toTable18: BSEC_DENABLE default values after reset on page181.

BSEC_OTP_DISTURBED0: RORegister<u32>

BSEC_OTP_DISTURBED0 is used to report disturbed state of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 (lower 1Kbits OTP). BSEC_OTP_DISTURBED1 is used to report disturbed state of BSEC_OTP_DATA32 to BSEC_OTP_DATA63. BSEC_OTP_DISTURBED2 is used to report disturbed state of BSEC_OTP_DATA64 to BSEC_OTP_DATA95.

BSEC_OTP_DISTURBED1: RORegister<u32>

BSEC_OTP_DISTURBED0 is used to report disturbed state of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 (lower 1Kbits OTP). BSEC_OTP_DISTURBED1 is used to report disturbed state of BSEC_OTP_DATA32 to BSEC_OTP_DATA63. BSEC_OTP_DISTURBED2 is used to report disturbed state of BSEC_OTP_DATA64 to BSEC_OTP_DATA95.

BSEC_OTP_DISTURBED2: RORegister<u32>

BSEC_OTP_DISTURBED0 is used to report disturbed state of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 (lower 1Kbits OTP). BSEC_OTP_DISTURBED1 is used to report disturbed state of BSEC_OTP_DATA32 to BSEC_OTP_DATA63. BSEC_OTP_DISTURBED2 is used to report disturbed state of BSEC_OTP_DATA64 to BSEC_OTP_DATA95.

BSEC_OTP_ERROR0: RORegister<u32>

BSEC_OTP_ERROR0 is used to report error state of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 (lower 1Kbits OTP which are protected by 2:1 redundancy). BSEC_OTP_ERROR1 is used to report error state of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 which are protected by 6-bit ECC. BSEC_OTP_ERROR2 is used to report error state of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 which are protected by 6-bit ECC.

BSEC_OTP_ERROR1: RORegister<u32>

BSEC_OTP_ERROR0 is used to report error state of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 (lower 1Kbits OTP which are protected by 2:1 redundancy). BSEC_OTP_ERROR1 is used to report error state of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 which are protected by 6-bit ECC. BSEC_OTP_ERROR2 is used to report error state of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 which are protected by 6-bit ECC.

BSEC_OTP_ERROR2: RORegister<u32>

BSEC_OTP_ERROR0 is used to report error state of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 (lower 1Kbits OTP which are protected by 2:1 redundancy). BSEC_OTP_ERROR1 is used to report error state of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 which are protected by 6-bit ECC. BSEC_OTP_ERROR2 is used to report error state of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 which are protected by 6-bit ECC.

BSEC_OTP_WRLOCK0: RORegister<u32>

BSEC_OTP_WLOCK0 is used to report permanent write lock of BSEC_OTP_DATA0 to BSEC_OTP_DATA31. BSEC_OTP_WLOCK1 is used to report permanent write lock of BSEC_OTP_DATA32 to BSEC_OTP_DATA63. BSEC_OTP_WLOCK2 is used to report permanent write lock of BSEC_OTP_DATA64 to BSEC_OTP_DATA95. Permanent write lock requires a programming sequence to lock a word (see section:Section3.3.6: OTP operations on page178).

BSEC_OTP_WRLOCK1: RORegister<u32>

BSEC_OTP_WLOCK0 is used to report permanent write lock of BSEC_OTP_DATA0 to BSEC_OTP_DATA31. BSEC_OTP_WLOCK1 is used to report permanent write lock of BSEC_OTP_DATA32 to BSEC_OTP_DATA63. BSEC_OTP_WLOCK2 is used to report permanent write lock of BSEC_OTP_DATA64 to BSEC_OTP_DATA95. Permanent write lock requires a programming sequence to lock a word (see section:Section3.3.6: OTP operations on page178).

BSEC_OTP_WRLOCK2: RORegister<u32>

BSEC_OTP_WLOCK0 is used to report permanent write lock of BSEC_OTP_DATA0 to BSEC_OTP_DATA31. BSEC_OTP_WLOCK1 is used to report permanent write lock of BSEC_OTP_DATA32 to BSEC_OTP_DATA63. BSEC_OTP_WLOCK2 is used to report permanent write lock of BSEC_OTP_DATA64 to BSEC_OTP_DATA95. Permanent write lock requires a programming sequence to lock a word (see section:Section3.3.6: OTP operations on page178).

BSEC_OTP_SPLOCK0: RWRegister<u32>

BSEC_OTP_SPLOCK0 is used to lock the programming of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset BSEC_OTP_SPLOCK1 is used to lock the programming of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset BSEC_OTP_SPLOCK2 is used to lock the programming of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset Attempt to sticky program locked OTP word are silently ignored.

BSEC_OTP_SPLOCK1: RWRegister<u32>

BSEC_OTP_SPLOCK0 is used to lock the programming of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset BSEC_OTP_SPLOCK1 is used to lock the programming of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset BSEC_OTP_SPLOCK2 is used to lock the programming of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset Attempt to sticky program locked OTP word are silently ignored.

BSEC_OTP_SPLOCK2: RWRegister<u32>

BSEC_OTP_SPLOCK0 is used to lock the programming of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset BSEC_OTP_SPLOCK1 is used to lock the programming of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset BSEC_OTP_SPLOCK2 is used to lock the programming of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset Attempt to sticky program locked OTP word are silently ignored.

BSEC_OTP_SWLOCK0: RWRegister<u32>

BSEC_OTP_SWLOCK0 is used to prevent writing to BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset. BSEC_OTP_SWLOCK1 is used to prevent writing to BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset. BSEC_OTP_SWLOCK2 is used to prevent writing to BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset. Write to shadow write locked BSEC_OTP_DATA word are silently ignored. Writing to OTP word 0 shadow is always prevented.

BSEC_OTP_SWLOCK1: RWRegister<u32>

BSEC_OTP_SWLOCK0 is used to prevent writing to BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset. BSEC_OTP_SWLOCK1 is used to prevent writing to BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset. BSEC_OTP_SWLOCK2 is used to prevent writing to BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset. Write to shadow write locked BSEC_OTP_DATA word are silently ignored. Writing to OTP word 0 shadow is always prevented.

BSEC_OTP_SWLOCK2: RWRegister<u32>

BSEC_OTP_SWLOCK0 is used to prevent writing to BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset. BSEC_OTP_SWLOCK1 is used to prevent writing to BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset. BSEC_OTP_SWLOCK2 is used to prevent writing to BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset. Write to shadow write locked BSEC_OTP_DATA word are silently ignored. Writing to OTP word 0 shadow is always prevented.

BSEC_OTP_SRLOCK0: RWRegister<u32>

BSEC_OTP_SRLOCK0 is used to prevent reloading of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset. BSEC_OTP_SRLOCK1 is used to prevent reloading of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset. BSEC_OTP_SRLOCK2 is used to prevent reloading of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset. Setting SRLOCK bits or attempt to reload a locked OTP do not clear the corresponding BSEC_OTP_DATAx shadow register. BSEC_OTP_SRLOCK0 bit 0 is controlled by hardware according to fuse_ok, writing to this bit has no effect.

BSEC_OTP_SRLOCK1: RWRegister<u32>

BSEC_OTP_SRLOCK0 is used to prevent reloading of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset. BSEC_OTP_SRLOCK1 is used to prevent reloading of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset. BSEC_OTP_SRLOCK2 is used to prevent reloading of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset. Setting SRLOCK bits or attempt to reload a locked OTP do not clear the corresponding BSEC_OTP_DATAx shadow register. BSEC_OTP_SRLOCK0 bit 0 is controlled by hardware according to fuse_ok, writing to this bit has no effect.

BSEC_OTP_SRLOCK2: RWRegister<u32>

BSEC_OTP_SRLOCK0 is used to prevent reloading of BSEC_OTP_DATA0 to BSEC_OTP_DATA31 until next system-reset. BSEC_OTP_SRLOCK1 is used to prevent reloading of BSEC_OTP_DATA32 to BSEC_OTP_DATA63 until next system-reset. BSEC_OTP_SRLOCK2 is used to prevent reloading of BSEC_OTP_DATA64 to BSEC_OTP_DATA95 until next system-reset. Setting SRLOCK bits or attempt to reload a locked OTP do not clear the corresponding BSEC_OTP_DATAx shadow register. BSEC_OTP_SRLOCK0 bit 0 is controlled by hardware according to fuse_ok, writing to this bit has no effect.

BSEC_JTAGIN: RORegister<u32>

BSEC JTAG input register

BSEC_JTAGOUT: RWRegister<u32>

BSEC JTAG output register

BSEC_SCRATCH: RWRegister<u32>

BSEC scratch register

BSEC_OTP_DATA0: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA1: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA2: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA3: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA4: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA5: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA6: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA7: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA8: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA9: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA10: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA11: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA12: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA13: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA14: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA15: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA16: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA17: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA18: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA19: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA20: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA21: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA22: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA23: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA24: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA25: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA26: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA27: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA28: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA29: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA30: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA31: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA32: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA33: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA34: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA35: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA36: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA37: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA38: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA39: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA40: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA41: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA42: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA43: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA44: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA45: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA46: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA47: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA48: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA49: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA50: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA51: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA52: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA53: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA54: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA55: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA56: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA57: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA58: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA59: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA60: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA61: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA62: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA63: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA64: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA65: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA66: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA67: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA68: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA69: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA70: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA71: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA72: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA73: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA74: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA75: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA76: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA77: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA78: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA79: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA80: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA81: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA82: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA83: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA84: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA85: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA86: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA87: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA88: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA89: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA90: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA91: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA92: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA93: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA94: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_OTP_DATA95: RWRegister<u32>

Several OTP directly impact BSEC behavior, such as: BSEC_OTP_DATA0[6:0] (see Table15: OTP modes definition on page175) BSEC_OTP_DATA1, 16 lsb used for SoC features control BSEC_OTP_DATA2, 2 lsb used to control the RAM handling The reset value depends on the actual OTP programmed value and the OTP mode.

BSEC_HWCFGR: RORegister<u32>

BSEC hardware configuration register

BSEC_VERR: RORegister<u32>

BSEC version register

BSEC_IPIDR: RORegister<u32>

BSEC identification register

BSEC_SIDR: RORegister<u32>

BSEC size identification register