l4_priv_clear
Clears Region Enable field when written with 1
| Module Instance | Base Address | Register Address |
|---|---|---|
| noc_l4_priv_l4_priv_filter | 0xFFD11000 | 0xFFD11008 |
Offset: 0x8
Access: WO
Important: The value of a reserved bit must be maintained in software. When you modify registers containing reserved bit fields, you must use a read-modify-write operation to preserve state and prevent indeterminate system behavior.
| Bit Fields | |||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 | 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 |
Reserved |
soc2fpga WO 0x0 |
lwsoc2fpga WO 0x0 |
uart1 WO 0x0 |
uart0 WO 0x0 |
sp_timer1 WO 0x0 |
sp_timer0 WO 0x0 |
i2c4 WO 0x0 |
i2c3 WO 0x0 |
i2c2 WO 0x0 |
i2c1 WO 0x0 |
i2c0 WO 0x0 |
gpio2 WO 0x0 |
gpio1 WO 0x0 |
gpio0 WO 0x0 |
sdmmc WO 0x0 |
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
qspi WO 0x0 |
emac3 0x0 |
emac2 WO 0x0 |
emac1 WO 0x0 |
emac0 WO 0x0 |
spi_slave1 WO 0x0 |
spi_slave0 WO 0x0 |
spi_master1 WO 0x0 |
spi_master0 WO 0x0 |
dma_secure WO 0x0 |
dma_nonsecure WO 0x0 |
usb1_register WO 0x0 |
usb0_register WO 0x0 |
qspi_data WO 0x0 |
nand_data WO 0x0 |
nand_register WO 0x0 |
l4_priv_clear Fields
| Bit | Name | Description | Access | Reset |
|---|---|---|---|---|
| 30 | soc2fpga | Privilege bit for SOC2FPGA. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 29 | lwsoc2fpga | Privilege bit for Lightweight SOC2FPGA. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 28 | uart1 | Privilege bit for uart1. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 27 | uart0 | Privilege bit for uart0. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 26 | sp_timer1 | Privilege bit for sp_timer1. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 25 | sp_timer0 | Privilege bit for sp_timer0. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 24 | i2c4 | Privilege bit for i2c4. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 23 | i2c3 | Privilege bit for i2c3. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 22 | i2c2 | Privilege bit for i2c2. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 21 | i2c1 | Privilege bit for i2c1. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 20 | i2c0 | Privilege bit for i2c0. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 19 | gpio2 | Privilege bit for gpio2. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 18 | gpio1 | Privilege bit for gpio1. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 17 | gpio0 | Privilege bit for gpio0. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 16 | sdmmc | Privilege bit for sdmmc. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 15 | qspi | Privilege bit for qspi. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 14 | emac3 | Privilege bit for emac3. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 13 | emac2 | Privilege bit for emac2. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 12 | emac1 | Privilege bit for emac1. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 11 | emac0 | Privilege bit for emac0. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 10 | spi_slave1 | Privilege bit for spi_slave1. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 9 | spi_slave0 | Privilege bit for spi_slave0. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 8 | spi_master1 | Privilege bit for spi_master1. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 7 | spi_master0 | Privilege bit for spi_master0. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 6 | dma_secure | Privilege bit for dma_secure. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 5 | dma_nonsecure | Privilege bit for dma_nonsecure. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 4 | usb1_register | Privilege bit for usb1_register. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 3 | usb0_register | Privilege bit for usb0_register. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 2 | qspi_data | Privilege bit for qspi_data. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 1 | nand_data | Privilege bit for nand_data. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |
| 0 | nand_register | Privilege bit for nand register. Writing zero has no effect. Writing one will clear the privilege bit |
WO | 0x0 |