Module stm32mp1::stm32mp157::bsec
source · [−]Expand description
BSEC2
Modules
reset value depends on OTP secure mode according toTable18: BSEC_DENABLE default values after reset on page181.
BSEC hardware configuration register
BSEC identification register
BSEC JTAG input register
BSEC JTAG output register
BSEC OTP configuration register
BSEC OTP control register
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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_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_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_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 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_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_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 lock configuration register
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_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_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_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_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_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 status register
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_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_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 write data register
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_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_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 scratch register
BSEC size identification register
BSEC version register
Structs
Register block
Type Definitions
BSEC_DENABLE register accessor: an alias for Reg<BSEC_DENABLE_SPEC>
BSEC_HWCFGR register accessor: an alias for Reg<BSEC_HWCFGR_SPEC>
BSEC_IPIDR register accessor: an alias for Reg<BSEC_IPIDR_SPEC>
BSEC_JTAGIN register accessor: an alias for Reg<BSEC_JTAGIN_SPEC>
BSEC_JTAGOUT register accessor: an alias for Reg<BSEC_JTAGOUT_SPEC>
BSEC_OTP_CONFIG register accessor: an alias for Reg<BSEC_OTP_CONFIG_SPEC>
BSEC_OTP_CONTROL register accessor: an alias for Reg<BSEC_OTP_CONTROL_SPEC>
BSEC_OTP_DATA0 register accessor: an alias for Reg<BSEC_OTP_DATA0_SPEC>
BSEC_OTP_DATA1 register accessor: an alias for Reg<BSEC_OTP_DATA1_SPEC>
BSEC_OTP_DATA2 register accessor: an alias for Reg<BSEC_OTP_DATA2_SPEC>
BSEC_OTP_DATA3 register accessor: an alias for Reg<BSEC_OTP_DATA3_SPEC>
BSEC_OTP_DATA4 register accessor: an alias for Reg<BSEC_OTP_DATA4_SPEC>
BSEC_OTP_DATA5 register accessor: an alias for Reg<BSEC_OTP_DATA5_SPEC>
BSEC_OTP_DATA6 register accessor: an alias for Reg<BSEC_OTP_DATA6_SPEC>
BSEC_OTP_DATA7 register accessor: an alias for Reg<BSEC_OTP_DATA7_SPEC>
BSEC_OTP_DATA8 register accessor: an alias for Reg<BSEC_OTP_DATA8_SPEC>
BSEC_OTP_DATA9 register accessor: an alias for Reg<BSEC_OTP_DATA9_SPEC>
BSEC_OTP_DATA10 register accessor: an alias for Reg<BSEC_OTP_DATA10_SPEC>
BSEC_OTP_DATA11 register accessor: an alias for Reg<BSEC_OTP_DATA11_SPEC>
BSEC_OTP_DATA12 register accessor: an alias for Reg<BSEC_OTP_DATA12_SPEC>
BSEC_OTP_DATA13 register accessor: an alias for Reg<BSEC_OTP_DATA13_SPEC>
BSEC_OTP_DATA14 register accessor: an alias for Reg<BSEC_OTP_DATA14_SPEC>
BSEC_OTP_DATA15 register accessor: an alias for Reg<BSEC_OTP_DATA15_SPEC>
BSEC_OTP_DATA16 register accessor: an alias for Reg<BSEC_OTP_DATA16_SPEC>
BSEC_OTP_DATA17 register accessor: an alias for Reg<BSEC_OTP_DATA17_SPEC>
BSEC_OTP_DATA18 register accessor: an alias for Reg<BSEC_OTP_DATA18_SPEC>
BSEC_OTP_DATA19 register accessor: an alias for Reg<BSEC_OTP_DATA19_SPEC>
BSEC_OTP_DATA20 register accessor: an alias for Reg<BSEC_OTP_DATA20_SPEC>
BSEC_OTP_DATA21 register accessor: an alias for Reg<BSEC_OTP_DATA21_SPEC>
BSEC_OTP_DATA22 register accessor: an alias for Reg<BSEC_OTP_DATA22_SPEC>
BSEC_OTP_DATA23 register accessor: an alias for Reg<BSEC_OTP_DATA23_SPEC>
BSEC_OTP_DATA24 register accessor: an alias for Reg<BSEC_OTP_DATA24_SPEC>
BSEC_OTP_DATA25 register accessor: an alias for Reg<BSEC_OTP_DATA25_SPEC>
BSEC_OTP_DATA26 register accessor: an alias for Reg<BSEC_OTP_DATA26_SPEC>
BSEC_OTP_DATA27 register accessor: an alias for Reg<BSEC_OTP_DATA27_SPEC>
BSEC_OTP_DATA28 register accessor: an alias for Reg<BSEC_OTP_DATA28_SPEC>
BSEC_OTP_DATA29 register accessor: an alias for Reg<BSEC_OTP_DATA29_SPEC>
BSEC_OTP_DATA30 register accessor: an alias for Reg<BSEC_OTP_DATA30_SPEC>
BSEC_OTP_DATA31 register accessor: an alias for Reg<BSEC_OTP_DATA31_SPEC>
BSEC_OTP_DATA32 register accessor: an alias for Reg<BSEC_OTP_DATA32_SPEC>
BSEC_OTP_DATA33 register accessor: an alias for Reg<BSEC_OTP_DATA33_SPEC>
BSEC_OTP_DATA34 register accessor: an alias for Reg<BSEC_OTP_DATA34_SPEC>
BSEC_OTP_DATA35 register accessor: an alias for Reg<BSEC_OTP_DATA35_SPEC>
BSEC_OTP_DATA36 register accessor: an alias for Reg<BSEC_OTP_DATA36_SPEC>
BSEC_OTP_DATA37 register accessor: an alias for Reg<BSEC_OTP_DATA37_SPEC>
BSEC_OTP_DATA38 register accessor: an alias for Reg<BSEC_OTP_DATA38_SPEC>
BSEC_OTP_DATA39 register accessor: an alias for Reg<BSEC_OTP_DATA39_SPEC>
BSEC_OTP_DATA40 register accessor: an alias for Reg<BSEC_OTP_DATA40_SPEC>
BSEC_OTP_DATA41 register accessor: an alias for Reg<BSEC_OTP_DATA41_SPEC>
BSEC_OTP_DATA42 register accessor: an alias for Reg<BSEC_OTP_DATA42_SPEC>
BSEC_OTP_DATA43 register accessor: an alias for Reg<BSEC_OTP_DATA43_SPEC>
BSEC_OTP_DATA44 register accessor: an alias for Reg<BSEC_OTP_DATA44_SPEC>
BSEC_OTP_DATA45 register accessor: an alias for Reg<BSEC_OTP_DATA45_SPEC>
BSEC_OTP_DATA46 register accessor: an alias for Reg<BSEC_OTP_DATA46_SPEC>
BSEC_OTP_DATA47 register accessor: an alias for Reg<BSEC_OTP_DATA47_SPEC>
BSEC_OTP_DATA48 register accessor: an alias for Reg<BSEC_OTP_DATA48_SPEC>
BSEC_OTP_DATA49 register accessor: an alias for Reg<BSEC_OTP_DATA49_SPEC>
BSEC_OTP_DATA50 register accessor: an alias for Reg<BSEC_OTP_DATA50_SPEC>
BSEC_OTP_DATA51 register accessor: an alias for Reg<BSEC_OTP_DATA51_SPEC>
BSEC_OTP_DATA52 register accessor: an alias for Reg<BSEC_OTP_DATA52_SPEC>
BSEC_OTP_DATA53 register accessor: an alias for Reg<BSEC_OTP_DATA53_SPEC>
BSEC_OTP_DATA54 register accessor: an alias for Reg<BSEC_OTP_DATA54_SPEC>
BSEC_OTP_DATA55 register accessor: an alias for Reg<BSEC_OTP_DATA55_SPEC>
BSEC_OTP_DATA56 register accessor: an alias for Reg<BSEC_OTP_DATA56_SPEC>
BSEC_OTP_DATA57 register accessor: an alias for Reg<BSEC_OTP_DATA57_SPEC>
BSEC_OTP_DATA58 register accessor: an alias for Reg<BSEC_OTP_DATA58_SPEC>
BSEC_OTP_DATA59 register accessor: an alias for Reg<BSEC_OTP_DATA59_SPEC>
BSEC_OTP_DATA60 register accessor: an alias for Reg<BSEC_OTP_DATA60_SPEC>
BSEC_OTP_DATA61 register accessor: an alias for Reg<BSEC_OTP_DATA61_SPEC>
BSEC_OTP_DATA62 register accessor: an alias for Reg<BSEC_OTP_DATA62_SPEC>
BSEC_OTP_DATA63 register accessor: an alias for Reg<BSEC_OTP_DATA63_SPEC>
BSEC_OTP_DATA64 register accessor: an alias for Reg<BSEC_OTP_DATA64_SPEC>
BSEC_OTP_DATA65 register accessor: an alias for Reg<BSEC_OTP_DATA65_SPEC>
BSEC_OTP_DATA66 register accessor: an alias for Reg<BSEC_OTP_DATA66_SPEC>
BSEC_OTP_DATA67 register accessor: an alias for Reg<BSEC_OTP_DATA67_SPEC>
BSEC_OTP_DATA68 register accessor: an alias for Reg<BSEC_OTP_DATA68_SPEC>
BSEC_OTP_DATA69 register accessor: an alias for Reg<BSEC_OTP_DATA69_SPEC>
BSEC_OTP_DATA70 register accessor: an alias for Reg<BSEC_OTP_DATA70_SPEC>
BSEC_OTP_DATA71 register accessor: an alias for Reg<BSEC_OTP_DATA71_SPEC>
BSEC_OTP_DATA72 register accessor: an alias for Reg<BSEC_OTP_DATA72_SPEC>
BSEC_OTP_DATA73 register accessor: an alias for Reg<BSEC_OTP_DATA73_SPEC>
BSEC_OTP_DATA74 register accessor: an alias for Reg<BSEC_OTP_DATA74_SPEC>
BSEC_OTP_DATA75 register accessor: an alias for Reg<BSEC_OTP_DATA75_SPEC>
BSEC_OTP_DATA76 register accessor: an alias for Reg<BSEC_OTP_DATA76_SPEC>
BSEC_OTP_DATA77 register accessor: an alias for Reg<BSEC_OTP_DATA77_SPEC>
BSEC_OTP_DATA78 register accessor: an alias for Reg<BSEC_OTP_DATA78_SPEC>
BSEC_OTP_DATA79 register accessor: an alias for Reg<BSEC_OTP_DATA79_SPEC>
BSEC_OTP_DATA80 register accessor: an alias for Reg<BSEC_OTP_DATA80_SPEC>
BSEC_OTP_DATA81 register accessor: an alias for Reg<BSEC_OTP_DATA81_SPEC>
BSEC_OTP_DATA82 register accessor: an alias for Reg<BSEC_OTP_DATA82_SPEC>
BSEC_OTP_DATA83 register accessor: an alias for Reg<BSEC_OTP_DATA83_SPEC>
BSEC_OTP_DATA84 register accessor: an alias for Reg<BSEC_OTP_DATA84_SPEC>
BSEC_OTP_DATA85 register accessor: an alias for Reg<BSEC_OTP_DATA85_SPEC>
BSEC_OTP_DATA86 register accessor: an alias for Reg<BSEC_OTP_DATA86_SPEC>
BSEC_OTP_DATA87 register accessor: an alias for Reg<BSEC_OTP_DATA87_SPEC>
BSEC_OTP_DATA88 register accessor: an alias for Reg<BSEC_OTP_DATA88_SPEC>
BSEC_OTP_DATA89 register accessor: an alias for Reg<BSEC_OTP_DATA89_SPEC>
BSEC_OTP_DATA90 register accessor: an alias for Reg<BSEC_OTP_DATA90_SPEC>
BSEC_OTP_DATA91 register accessor: an alias for Reg<BSEC_OTP_DATA91_SPEC>
BSEC_OTP_DATA92 register accessor: an alias for Reg<BSEC_OTP_DATA92_SPEC>
BSEC_OTP_DATA93 register accessor: an alias for Reg<BSEC_OTP_DATA93_SPEC>
BSEC_OTP_DATA94 register accessor: an alias for Reg<BSEC_OTP_DATA94_SPEC>
BSEC_OTP_DATA95 register accessor: an alias for Reg<BSEC_OTP_DATA95_SPEC>
BSEC_OTP_DISTURBED0 register accessor: an alias for Reg<BSEC_OTP_DISTURBED0_SPEC>
BSEC_OTP_DISTURBED1 register accessor: an alias for Reg<BSEC_OTP_DISTURBED1_SPEC>
BSEC_OTP_DISTURBED2 register accessor: an alias for Reg<BSEC_OTP_DISTURBED2_SPEC>
BSEC_OTP_ERROR0 register accessor: an alias for Reg<BSEC_OTP_ERROR0_SPEC>
BSEC_OTP_ERROR1 register accessor: an alias for Reg<BSEC_OTP_ERROR1_SPEC>
BSEC_OTP_ERROR2 register accessor: an alias for Reg<BSEC_OTP_ERROR2_SPEC>
BSEC_OTP_LOCK register accessor: an alias for Reg<BSEC_OTP_LOCK_SPEC>
BSEC_OTP_SPLOCK0 register accessor: an alias for Reg<BSEC_OTP_SPLOCK0_SPEC>
BSEC_OTP_SPLOCK1 register accessor: an alias for Reg<BSEC_OTP_SPLOCK1_SPEC>
BSEC_OTP_SPLOCK2 register accessor: an alias for Reg<BSEC_OTP_SPLOCK2_SPEC>
BSEC_OTP_SRLOCK0 register accessor: an alias for Reg<BSEC_OTP_SRLOCK0_SPEC>
BSEC_OTP_SRLOCK1 register accessor: an alias for Reg<BSEC_OTP_SRLOCK1_SPEC>
BSEC_OTP_SRLOCK2 register accessor: an alias for Reg<BSEC_OTP_SRLOCK2_SPEC>
BSEC_OTP_STATUS register accessor: an alias for Reg<BSEC_OTP_STATUS_SPEC>
BSEC_OTP_SWLOCK0 register accessor: an alias for Reg<BSEC_OTP_SWLOCK0_SPEC>
BSEC_OTP_SWLOCK1 register accessor: an alias for Reg<BSEC_OTP_SWLOCK1_SPEC>
BSEC_OTP_SWLOCK2 register accessor: an alias for Reg<BSEC_OTP_SWLOCK2_SPEC>
BSEC_OTP_WRDATA register accessor: an alias for Reg<BSEC_OTP_WRDATA_SPEC>
BSEC_OTP_WRLOCK0 register accessor: an alias for Reg<BSEC_OTP_WRLOCK0_SPEC>
BSEC_OTP_WRLOCK1 register accessor: an alias for Reg<BSEC_OTP_WRLOCK1_SPEC>
BSEC_OTP_WRLOCK2 register accessor: an alias for Reg<BSEC_OTP_WRLOCK2_SPEC>
BSEC_SCRATCH register accessor: an alias for Reg<BSEC_SCRATCH_SPEC>
BSEC_SIDR register accessor: an alias for Reg<BSEC_SIDR_SPEC>
BSEC_VERR register accessor: an alias for Reg<BSEC_VERR_SPEC>