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This article provides a brief overview of the SP7350 software. Subsequent articles will delve into the detailed components of the software. The initial section begins with an introduction to the basic hardware through block diagramssource code and software operations, followed by an explanation of software operationsCPU addressing space. The final will touch upon CPU addressing space and register addresses.

Table of Contents

Hardware introduction

The SP7350 incorporates a quad-core ARM Cortex A55 CPU, Verisilicon VIP9000 NPU, Verisilicon video codec, ROM, SRAM, eMMC controller, SPI-NAND flash controller, 8-bit NAND flash controller, UART controller, USB3.0 controller, USB2.0 controller, GPIO, CPIO interface, and DDR3/DDR4/LPDDR4 SDRAM controller, all interconnected by a 128-bit AXI bus, as illustrated in figure below.

...

Cortex-A55 x4 (up to 2.1GHz )

L1: 32KiB, L2: 128KiB, L3: 1MiB

Support DVFS (0.7V / 0.8V / 1.0V)

NPU (1GHz@typical case, 4.6 TOPS)

38 AI models, such as yolov5, mobilenet_v2, squeezenet_v1, inception_v3, and etc., have been verified.

Video codec

H.264 encoder (up to 1920x1080 @ 30fps)

H.264 decoder (up to 1920x1080 @ 60fps)

Crypto engine (AES-256, RSA-2048, MD5, GHASH, SHA2/3)

Support DDR3 (1866) / DDR4 (2666) / LPDDR4 (3200), up to 8GiB

4 CH MIPI/CSI-RX (up to 10 virtual channel, 2688x1944)

1 CH MIPI/DSI-TX or MIPI/CSI-TX (1920x1080)

Support 5 boot devices:

SPI-NOR flash

SPI-NAND flash

8-bit NAND flash

eMMC

SD card

DMA / HWRNG / RTC / Watchdog

Cortex-M4 (with dedicated 384 KiB SRAM, run up to 400M)

Support CPIO (chip-to-chip high-speed interface, up to 9.6GB/s)

USB2.0 x1

USB3.1 Gen. 1 x1

Giga Ethernet

SDIO3.0

3 CH I2S audio

4 CH ADC, 4 CH PWM

7 CH UART, 10 CH I2C, 6 CH SPI

9 CH Timer

106 GPIO (including 48 DVIO)

The Cortex A55, designed by ARM, is a 64-bit, quad-core, general-purpose CPU that implements the ARMv8-A instruction set. It provides 31 sets of 64-bit general-purpose registers, a 64-bit program counter, stack pointer, and exception link register. It features L1 cache of 32 KiB each for instructions and data, an L2 cache of 128 KiB, and an L3 cache of 512 KiB. The Cortex A55 supports 64-bit virtual addresses and 48-bit physical addresses, with four privilege modes: unprivileged (EL-0), OS kernel mode (EL-1), Hypervisor mode (EL-2), and monitor mode. It operates in both secure and non-secure worlds.

The VIP9000 NPU, designed by Verisilicon, is a Neural-network Processor Unit (NPU) specialized for hardware-accelerated processing in artificial intelligence, particularly in neural networks, machine vision, and machine learning. It includes 2048 MACs and achieves computational performance up to 5 TOPS (@900MGHz). Verisilicon provides development environments like AcuityIDE, enabling developers to easily create AI programs and applications.

The DDR3/DDR4/LPDDR4 SDRAM controller, designed by Synopsys, supports three types of DRAM: DDR3, DDR4, and LPDDR4. It features 2 channels, each with 16 bits, totaling 32 bits. The maximum capacity of DRAM supported is 8 GiB, with a maximum speed of 12.8 GiB/s (@1600MHz).

The ROM has a size of 96 KiB and stores the boot program. The first instruction executed after CPU reset resides in the ROM, responsible for initializing the system and loading the next stage of the boot loader from storage devices and executing it. The SRAM has a size of 256 KiB, serving as high-speed RAM for the system or a buffer for DMA transfers. In this system, SRAM also has a special purpose as the RAM for loading and executing the boot loader before initializing DRAM.

The eMMC controller supports eMMC specification version 4.41, with a voltage range of 1.8V (SDR 200 MHz) to 3.3V (DDR 52MHz). The SPI-NAND flash controller and 8-bit NAND flash controller support automatic BCH (1K60) and SLC NAND, with a speed of 104 MHz at 3.3V and 133 MHz or STR mode at 1.8V. The SD card controller supports SD 3.0 specification (also known as SDXC), with a maximum capacity of 2 TB, a maximum speed of 104 MB/s, and automatic switching between 3.3V and 1.8V.

The USB3.0 controller, designed by Synopsys, support dual-roll device (DRD) with a maximum transfer capability of 5 Gbps. USB2.0 controller supports host, device and OTG mode. It supports high-speed, full-speed and low-speed mode. The UART controller has 7 channels, and there are 106 GPIO pins supporting multiplexing.

The CPIO, designed by Sunplus, is a high-speed, full-duplex interface for communicating from chiplet to chiplet, supporting 4 lanes for TX/RX data, CPI, and CPI-X modes, supporting data swap, and achieving a transfer capability of 9.6 GiB/s (@4 lanes, 12nm) or 4.8 GiB/s (@4 lanes, 28nm).

The P chip (Peripheral chip), designed by the customer, includes specific peripheral devices according to the customer's requirements. The C chip can connect to one DRAM and one P chip, as shown in figure below:

The maximum supported capacity of DRAM is 8 GiB. The P chip is designed by the customer to include specific peripherals such as Giga Ethernet, USB3.1 Gen 2, Image fusion processor, MIPI CSI-2, WiFi, Display Engine, and etc. The C chip provides powerful computation capabilities, including general computation, AI inference, graphic computation, and video compression/decompression, meeting the customer's computation needs.

Software operations

Software includes i-boot, x-boot, TF-A, OP-TEE, U-Boot, Linux and FreeRTOS. The following figure illustrates the operation flow of i-boot, x-boot, TF-A, OP-TEE, U-Boot, Linux and FreeRTOS. i-boot loads x-boot from external storage device into SRAM and executes it. x-boot then loads images of TF-A, OP-TEE and U-Boot from external storage device into DRAM and executes TF-A. TF-A runs OP-TEE and then U-Boot, which has already been loaded into DRAM by it. Finally, U-Boot loads Linux from external storage device into DRAM and executes it.

...

Note that i-boot locates at chip internal mask ROM and is a part of hardware. x-boot, U-Boot only exist temporarily at boot time. Ubuntu server and ROS/ROS2 are optional. Afer system boots up successfully, software components stacked look like figure below.

...

CPU (Cortex A55) addressing space

CPU of SP7350 supports 16 GiB addressing space (with 34 address lines), including 8 GiB for DRAM and 4 GiB reserved for CPIO. The layout of the addressing space is depicted in 3 figures below: One is for 2 GiB DRAM, another is for 4 GiB DRAM, and the other is for 8 GiB DRAM. Let explain below sections.

Addressing space for 2 GB DRAM

Refer to figure below, in the first 4 GiB address space, the initial 2 GiB is allocated for the DRAM, while the remaining 0.25 GiB is reserved for chip internal devices and registers. The second and the forth 4 GiB address space are reserved (no use). The third GiB address space is for the device (or P-chip) which is connected with CPIO bus.

...

Addressing space for 4 GB DRAM

Refer to figure below, the first 0.75 GiB address space isallocated for the DRAM, followed by 0.25 GiB address space for chip internal devices and registers. The initial 0.25 GiB of the second 4 GiB address space is allocated for the DRAM, while the remaining 3.75 GiB is reserved (no use). The third 4 GiB address space is for the device (or P-chip) which is connected with CPIO bus. The last 4 GiB address space is reserved (no use).

...

Addressing space for 8 GB DRAM

Refer to figure below, the first 4 GiB address space is the same as the layout of 4 GiB DRAM. The second 4 GiB address space is allocated for the DRAM. The third 4 GiB address space is for the device (or P-chip) which is connected with CPIO bus. The initial 0.25 GiB of the last 4 GiB address space is allocated for the DRAM, while the remaining 3.75 GiB is reserved (no use).

...

Address map of device and registers

The following figure provides a detailed view of the address map, starting from address 0xf0000000. It begins with 64 MiB of SPI-NOR flash (direct address space for NOR flash), followed by 64 MiB of SPI-NAND flash (direct address space for NAND flash), 8 MiB of device registers (such as UART controller, RTC controller, OTP controller, SPI-NOR flash controller, SPI-NAND flash controller, eMMC controller, SD card controller, USB3 controller, etc.), 4 MiB of AO registers, 16 MiB of DDR controller registers, 1 MiB of Cortex-A55 (4-core CPU) registers, 1 MiB of Cortex-M4 (micro-controller) registers, 256 KiB of CBDMA SRAM, 384 KiB of CM4 SRAM, 64 MiB 8-bit NAND flash controller and 96 KiB of ROM.

...

section touches on the device address map.

Table of Contents

Table of Contents

Source Code

The source code for SP7350 is readily available on both GitHub and Gitee repositories:

For downloading and compiling the code, detailed instructions can be found at:

https://sunplus.atlassian.net/wiki/x/1gB-dg

Additionally, for in-system programming of flash devices on the SP7350 platform, refer to:

https://sunplus.atlassian.net/wiki/x/b4Djdg

Software Operations

The software components include i-boot, x-boot, TF-A, OP-TEE, U-Boot, Linux, and FreeRTOS. The operation flow of these components is illustrated in the figure below:

...

Upon power-on, i-boot loads the x-boot image from an external storage device into SRAM, verifies it, and executes it. x-boot initiates the DDR controller and conducts training for the DDR PHY. Upon the successful completion of DDR PHY training, DDR DRAM becomes operational. Subsequently, x-boot loads TF-A, OP-TEE, and U-Boot images from an external storage device into DRAM, verifying their integrity. Following this, it executes TF-A, which in turn calls OP-TEE and initiates U-Boot. U-Boot loads the Linux image from an external storage device into DRAM and executes it. Once Linux boots successfully, it proceeds to load the firmware of CM4 (FreeRTOS) and starts CM4.

Note that i-boot resides in the chip's internal mask ROM and is a hardware component. x-boot and U-Boot exist temporarily during boot time. Ubuntu server and ROS/ROS2 are optional. After a successful system boot, the stacked software components resemble the figure below:

...

CPU (Cortex A55) Addressing Space

The CPU of SP7350 supports a 16 GiB addressing space (with 34 address lines), including 8 GiB for DRAM and 4 GiB reserved for CPIO. The addressing space layout is depicted in three figures for 2 GiB DRAM, 4 GiB DRAM, and 8 GiB DRAM.

Addressing Space for 2 GB DRAM

In the first 4 GiB address space, the initial 2 GiB is allocated for DRAM, while the remaining 0.25 GiB is reserved for chip internal devices and registers. The second and fourth 4 GiB address spaces are reserved, and the third 4 GiB address space is for the device (or P-chip) connected with the CPIO bus.

...

Addressing Space for 4 GB DRAM

The first 0.75 GiB address space is allocated for DRAM, followed by 0.25 GiB for chip internal devices and registers. The initial 0.25 GiB of the second 4 GiB address space is allocated for DRAM, while the remaining 3.75 GiB is reserved. The third 4 GiB address space is for the device (or P-chip) connected with the CPIO bus, and the last 4 GiB address space is reserved.

...

Addressing Space for 8 GB DRAM

The first 4 GiB address space is the same as the layout of 4 GiB DRAM. The second 4 GiB address space is allocated for DRAM, and the third 4 GiB address space is for the device (or P-chip) connected with the CPIO bus. The initial 0.25 GiB of the last 4 GiB address space is allocated for DRAM, while the remaining 3.75 GiB is reserved.

...

Address Map of Devices and Registers

The detailed address map begins at address 0xf0000000. It includes segments such as 64 MiB of SPI-NOR flash, 64 MiB of SPI-NAND flash, device registers, AO device registers, DDR SRAM controller registers, Cortex-A55 registers, Cortex-M4 registers, CBDMA SRAM, CM4 SRAM, 8-bit NAND flash controller, and ROM.

...

Interrupt

CA55 Interrupt Table

Bit

Descriptions

Hardware Name

Level/Edge

0

Interrupt_from_GPIO

PI_GPIO_INT0

Programmable

1

Interrupt_from_GPIO

PI_GPIO_INT1

Programmable

2

Interrupt_from_GPIO

PI_GPIO_INT2

Programmable

3

Interrupt_from_GPIO

PI_GPIO_INT3

Programmable

4

Interrupt_from_GPIO

PI_GPIO_INT4

Programmable

5

Interrupt_from_GPIO

PI_GPIO_INT5

Programmable

6

Interrupt_from_GPIO

PI_GPIO_INT6

Programmable

7

Interrupt_from_GPIO

PI_GPIO_INT7

Programmable

8

I2C0

I2C0_INT

Level

9

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT0

Level

10

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT1

Level

11

RTC_2Hz_INT_to_CM4

RTC_2HZ_INT

Edge

12

CPIOR

CPIOR_CTL_INT

Level

13

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT2

Level

14

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT3

Level

15

SDIO_controller

CARD_CTL2_INT

Level

16

SD_controller

CARD_CTL1_INT

Level

17

EMMC_controller

CARD_CTL0_INT

Level

18

SPI_FLASH

SPI_INT

Level

19

GMAC

GMAC_INT

Level

20

AXI_DMA

AXI_DMA_INT

Level

21

GMAC

GMAC_PMT_INT

Level

22

I2C6

I2C6_INT

Level

23

SPI_NAND

SPI_ND_INT

Level

24

BCH

BCH_INT

Level

25

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT4

Level

26

MAILBOX0_CA55_to_CM4

CPU0_TO_2_DIRECT_INT5

Level

27

SPI_CB0

SPI_CB0_INT

level

28

SPI_CB1

SPI_CB1_INT

level

29

SPI_CB2

SPI_CB2_INT

level

30

SPI_CB3

SPI_CB3_INT

level

31

SPI_CB4

SPI_CB4_INT

level

32

SPI_CB5

SPI_CB5_INT

level

33

THERMAL

THERMAL_S_INT

Level

34

THERMAL

THERMAL_A_INT

Level

35

UART2AXI

UADBG_INT

Level

36

VI0_CSIIW0

VI0_CSIIW0_INT_FIELD_START

Level

37

VI0_CSIIW0

VI0_CSIIW0_INT_FIELD_END

Level

38

VI0_CSIIW1

VI0_CSIIW1_INT_FIELD_START

Level

39

VI0_CSIIW1

VI0_CSIIW1_INT_FIELD_END

Level

40

VI1_CSIIW0

VI1_CSIIW0_INT_FIELD_START

Level

41

VI1_CSIIW0

VI1_CSIIW0_INT_FIELD_END

Level

42

VI1_CSIIW1

VI1_CSIIW1_INT_FIELD_START

Level

43

VI1_CSIIW1

VI1_CSIIW1_INT_FIELD_END

Level

44

VI4_CSIIW0

VI4_CSIIW0_INT_FIELD_START

Level

45

VI4_CSIIW0

VI4_CSIIW0_INT_FIELD_END

Level

46

VI4_CSIIW1

VI4_CSIIW1_INT_FIELD_START

Level

47

VI4_CSIIW1

VI4_CSIIW1_INT_FIELD_END

Level

48

SEC_IP

SEC_INT

Level

49

AXI_Global_Monitor_int

AXI_MON_TOP_INT

Level

50

AXI_Global_Monitor_int

AXI_MON_PAI_INT

Level

51

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMERW

Level

52

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER0

Edge

53

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER1

Edge

54

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER2B

Edge

55

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER3B

Edge

56

RTC

WakeupKey_INT

Level

57

TZC400

TZC_400_INT

Level

58

GMAC

GMAC_LPI_INT

Level

59

MIPITX

MIPITX_INT

Level

60

UART

UA0_INT

Level

61

UART

UA1_INT

Level

62

Reserved

AXI_MON_TOP_INT

Level

63

DISP_PWM

DISP_PWM_USER_INT_0

Edge

64

DISP_PWM

DISP_PWM_INT_END_0

Edge

65

DISP_PWM

DISP_PWM_USER_INT_1

Edge

66

DISP_PWM

DISP_PWM_INT_END_1

Edge

67

DISP_PWM

DISP_PWM_USER_INT_2

Edge

68

DISP_PWM

DISP_PWM_INT_END_2

Edge

69

DISP_PWM

DISP_PWM_USER_INT_3

Edge

70

DISP_PWM

DISP_PWM_INT_END_3

Edge

71

PNAND

PNAND_INT

level

72

RBUS_in_AO

RBUS_INTERRUPT

Level

73

Reserved

AXI_MON_PAI_INT

Level

74

CB_DMA0

CBDMA0_INT

Level

75

Reserved

AXI_MON_PAII_INT

Level

76

RBUS

RBUS_INTERRUPT

Level

77

VC8000E

VCE_INT

Level

78

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT6

Level

79

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT7

Level

80

VI23_CSIIW0

VI23_CSIIW0_INT_FIELD_START

Level

81

VI23_CSIIW0

VI23_CSIIW0_INT_FIELD_END

Level

82

VI23_CSIIW1

VI23_CSIIW1_INT_FIELD_START

Level

83

VI23_CSIIW1

VI23_CSIIW1_INT_FIELD_END

Level

84

VI23_CSIIW2

VI23_CSIIW2_INT_FIELD_START

Level

85

VI23_CSIIW2

VI23_CSIIW2_INT_FIELD_END

Level

86

VI23_CSIIW3

VI23_CSIIW3_INT_FIELD_START

Level

87

VI23_CSIIW3

VI23_CSIIW3_INT_FIELD_END

Level

88

VCL

VCL_INTR0

Level

89

VCL

VCL_INTR1

Level

90

VCL

VCL_INTR2

Level

91

VCL

VCL_INTR3

Level

92

VCL

VCL_INTR4

Level

93

VCL

VCL_INTR5

Level

94

I2C1

I2C1_INT

Level

95

I2C2

I2C2_INT

Level

96

I2C3

I2C3_INT

Level

97

I2C4

I2C4_INT

Level

98

I2C5

I2C5_INT

Level

99

RTC

RTC_PERIODIC_INT

Edge

100

AUD

LOSD_INT

Edge

101

AUD

AUD_FIFO_INT

Level

102

AUD

AUD_TWS_LATCH_INT

Level

103

AUD

AUD_TWS_SAMPLE_INT

Level

104

TGEN

TGEN_INT_FIELD_START

Edge

105

TGEN

TGEN_INT_FIELD_END

Edge

106

TGEN

TGEN_INT_USER1

Edge

107

TGEN

TGEN_INT_USER2

Edge

108

VCL

VCL_INTR6

Edge

109

VCL

VCL_INTR7

Level

110

I2C7

I2C7_INT

Level

111

I2C8

I2C8_INT

Level

112

PNAND

PNAND_ERROR_INT

level

113

STC_AV3

STC_AV3_INTERRUPT_TIMERW

Level

114

STC_AV3

STC_AV3_INTERRUPT_TIMER0

Edge

115

STC_AV3

STC_AV3_INTERRUPT_TIMER1

Edge

116

STC_AV3

STC_AV3_INTERRUPT_TIMER2B

Edge

117

STC_AV3

STC_AV3_INTERRUPT_TIMER3B

Edge

118

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT0

Level

119

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT1

Level

120

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT2

Level

121

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT3

Level

122

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT4

Level

123

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT5

Level

124

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT6

Level

125

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT7

Level

126

MAILBOX1_CM4_to_CA55

CPU2_TO_0_INT

Level

127

MAILBOX1_CA55_to_CM4

CPU0_TO_2_INT

Level

128

STC

STC_INTERRUPT_TIMERW

Level

129

STC

STC_INTERRUPT_TIMER0

Edge

130

STC

STC_INTERRUPT_TIMER1

Edge

131

STC

STC_INTERRUPT_TIMER2B

Edge

132

STC

STC_INTERRUPT_TIMER3B

Edge

133

STC_AV0

STC_AV0_INTERRUPT_TIMER0

Edge

134

STC_AV0

STC_AV0_INTERRUPT_TIMER1

Edge

135

STC_AV0

STC_AV0_INTERRUPT_TIMER2B

Edge

136

STC_AV0

STC_AV0_INTERRUPT_TIMER3B

Edge

137

STC_AV1

STC_AV1_INTERRUPT_TIMER0

Edge

138

STC_AV1

STC_AV1_INTERRUPT_TIMER1

Edge

139

STC_AV1

STC_AV1_INTERRUPT_TIMER2B

Edge

140

STC_AV1

STC_AV1_INTERRUPT_TIMER3B

Edge

141

RTC

SYS_RTC_INT

Edge

142

STC_AV2

STC_AV2_INTERRUPT_TIMER0

Edge

143

STC_AV2

STC_AV2_INTERRUPT_TIMER1

Edge

144

STC_AV2

STC_AV2_INTERRUPT_TIMER2B

Edge

145

STC_AV2

STC_AV2_INTERRUPT_TIMER3B

Edge

146

STC_AV0

STC_AV0_INTERRUPT_TIMERW

Level

147

STC_AV1

STC_AV1_INTERRUPT_TIMERW

Level

148

UPHY0

UPHY0_INT

Level

149

Reserved

UPHY1_INT

Level

150

Reserved

UPHY2_INT

Level

151

AHB_DMA

AHB_DMA0_CH0_INT

Level

152

AHB_DMA

AHB_DMA0_CH1_INT

Level

153

AHB_DMA

AHB_DMA0_CH2_INT

Level

154

AHB_DMA

AHB_DMA0_CH3_INT

Level

155

AHB_DMA

AHB_DMA0_CH4_INT

Level

156

AHB_DMA

AHB_DMA0_CH5_INT

Level

157

UART

UA2_INT

Level

158

UART

UA3_INT

Level

159

UART

UA7_INT

Level

160

AHB_DMA

AHB_DMA0_CH6_INT

Level

161

AHB_DMA

AHB_DMA0_CH7_INT

Level

162

UART

UA6_INT

Level

163

Key_Scan

SAR_INT

Level

164

Touch_Panel

RES_TOUCH_INT

Edge

165

NPU

NPU_XAQ2_INTR

Level

166

Reserved

VCDL2_INT

Level

167

VC8000D

VCD_INT

Level

168

Reserved

VCDDECE_INT

Level

169

I2C9

I2C9_INT

Level

170

VI5_CSIIW0

VI5_CSIIW0_INT_FIELD_START

Level

171

VI5_CSIIW0

VI5_CSIIW0_INT_FIELD_END

Level

172

VI5_CSIIW1

VI5_CSIIW1_INT_FIELD_START

Level

173

VI5_CSIIW1

VI5_CSIIW1_INT_FIELD_END

Level

174

VI5_CSIIW2

VI5_CSIIW2_INT_FIELD_START

Level

175

VI5_CSIIW2

VI5_CSIIW2_INT_FIELD_END

Level

176

VI5_CSIIW3

VI5_CSIIW3_INT_FIELD_START

Level

177

VI5_CSIIW3

VI5_CSIIW3_INT_FIELD_END

Level

178

AHB_DMA

AHB_DMA1_CH0_INT

Level

179

USB30C0

USB30C0_INT

Level

180

AHB_DMA

AHB_DMA1_CH1_INT

Level

181

USBC0

USBC0_OTG_INT

Level

182

USBC0

USBC0_DEVICE_INT

Level

183

USBC0

USBC0_EHCI_INT

Level

184

USBC0

USBC0_OHCI_INT

Level

185

STC_AV4

STC_AV4_INTERRUPT_TIMERW

Level

186

STC_AV4

STC_AV4_INTERRUPT_TIMER0

Edge

187

STC_AV4

STC_AV4_INTERRUPT_TIMER1

Edge

188

STC_AV4

STC_AV4_INTERRUPT_TIMER2B

Edge

189

STC_AV4

STC_AV4_INTERRUPT_TIMER3B

Edge

190

Reserved

USBH_OHCI_INT

Level

191

U3PHY

U3PHY0_INT

Level

192

AHB_DMA

AHB_DMA1_CH2_INT

Level

193

AHB_DMA

AHB_DMA1_CH3_INT

Level

194

AHB_DMA

AHB_DMA1_CH4_INT

Level

195

AHB_DMA

AHB_DMA1_CH5_INT

Level

196

AHB_DMA

AHB_DMA1_CH6_INT

Level

197

DDRPHY

DDRPHY_INT

Level

198

uMCTL2

UMCTL2_INT

Level

199

AHB_DMA

AHB_DMA1_CH7_INT

Level

200

GPIO_AO

GPIO_AO_0_INT

Programmable

201

GPIO_AO

GPIO_AO_1_INT

Programmable

202

GPIO_AO

GPIO_AO_2_INT

Programmable

203

GPIO_AO

GPIO_AO_3_INT

Programmable

204

GPIO_AO

GPIO_AO_4_INT

Programmable

205

GPIO_AO

GPIO_AO_5_INT

Programmable

206

GPIO_AO

GPIO_AO_6_INT

Programmable

207

GPIO_AO

GPIO_AO_7_INT

Programmable

208

GPIO_AO

GPIO_AO_8_INT

Programmable

209

GPIO_AO

GPIO_AO_9_INT

Programmable

210

GPIO_AO

GPIO_AO_10_INT

Programmable

211

GPIO_AO

GPIO_AO_11_INT

Programmable

212

GPIO_AO

GPIO_AO_12_INT

Programmable

213

GPIO_AO

GPIO_AO_13_INT

Programmable

214

GPIO_AO

GPIO_AO_14_INT

Programmable

215

GPIO_AO

GPIO_AO_15_INT

Programmable

216

GPIO_AO

GPIO_AO_16_INT

Programmable

217

GPIO_AO

GPIO_AO_17_INT

Programmable

218

GPIO_AO

GPIO_AO_18_INT

Programmable

219

GPIO_AO

GPIO_AO_19_INT

Programmable

220

GPIO_AO

GPIO_AO_20_INT

Programmable

221

GPIO_AO

GPIO_AO_21_INT

Programmable

222

GPIO_AO

GPIO_AO_22_INT

Programmable

223

GPIO_AO

GPIO_AO_23_INT

Programmable

224

GPIO_AO

GPIO_AO_24_INT

Programmable

225

GPIO_AO

GPIO_AO_25_INT

Programmable

226

GPIO_AO

GPIO_AO_26_INT

Programmable

227

GPIO_AO

GPIO_AO_27_INT

Programmable

228

GPIO_AO

GPIO_AO_28_INT

Programmable

229

GPIO_AO

GPIO_AO_29_INT

Programmable

230

GPIO_AO

GPIO_AO_30_INT

Programmable

231

GPIO_AO

GPIO_AO_31_INT

Programmable

[239:

232]

Reserved

 

 

240

PMC

PMC_CA55_SCUL3_PDENY_IRQ_CM4

Level

241

PMC

PMC_CA55_CORE3_PDENY_IRQ_CM4

Level

242

PMC

PMC_CA55_CORE2_PDENY_IRQ_CM4

Level

243

PMC

PMC_CA55_CORE1_PDENY_IRQ_CM4

Level

244

PMC

PMC_CA55_CORE0_PDENY_IRQ_CM4

Level

245

PMC

PMC_CA55_SCUL3_PACCEPT_IRQ_CM4

Level

246

PMC

PMC_CA55_CORE3_PACCEPT_IRQ_CM4

Level

247

PMC

PMC_CA55_CORE2_PACCEPT_IRQ_CM4

Level

248

PMC

PMC_CA55_CORE1_PACCEPT_IRQ_CM4

Level

249

PMC

PMC_CA55_CORE0_PACCEPT_IRQ_CM4

Level

250

PMC

PMC_CA55_SCUL3_PACTIVE_ON2OFF_IRQ_CM4

Level

251

PMC

PMC_CA55_CORE3_PACTIVE_ON2OFF_IRQ_CM4

Level

252

PMC

PMC_CA55_CORE2_PACTIVE_ON2OFF_IRQ_CM4

Level

253

PMC

PMC_CA55_CORE1_PACTIVE_ON2OFF_IRQ_CM4

Level

254

PMC

PMC_CA55_CORE0_PACTIVE_ON2OFF_IRQ_CM4

Level

255

PMC

PMC_CA55_SCUL3_PACTIVE_OFF2ON_IRQ_CM4

Level

256

PMC

PMC_CA55_CORE3_PACTIVE_OFF2ON_IRQ_CM4

Level

257

PMC

PMC_CA55_CORE2_PACTIVE_OFF2ON_IRQ_CM4

Level

258

PMC

PMC_CA55_CORE1_PACTIVE_OFF2ON_IRQ_CM4

Level

259

PMC

PMC_CA55_CORE0_PACTIVE_OFF2ON_IRQ_CM4

Level

[307:

260]

Reserved

 

Level

[415:

308]

CPIOR

 

Level

[455:

416]

Reserved

 

Level

CM4 Interrupt Table

Bit

Descriptions

Hardware Name

Level/Edge

0

Main_Domain_Power_UP_Req

MAIN_PWR_UP_REQ

level

1

Main_Domain_Power_Dwon_Ack

MAIN_PWR_DOWN_INT

level

2

RTC

WakeupKey_INT

Level

3

 

 

 

4

 

 

 

5

 

 

 

6

 

 

 

7

 

 

 

8

I2C0

I2C0_INT

Level

9

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT0

Level

10

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT1

Level

11

RTC_2HZ_INT_to_CM4

RTC_2HZ_INT

Edge

12

 

 

 

13

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT2

Level

14

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT3

Level

15

 

 

 

16

 

 

 

17

 

 

 

18

 

 

 

19

 

 

 

20

 

 

 

21

 

 

 

22

I2C6

I2C6_INT

Level

23

 

 

 

24

 

 

 

25

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT4

Level

26

MAILBOX0_CA55_to_CM4

CPU0_TO_2_DIRECT_INT5

Level

27

SPI_CB0

SPI_CB0_INT

level

28

SPI_CB1

SPI_CB1_INT

level

29

SPI_CB2

SPI_CB2_INT

level

30

SPI_CB3

SPI_CB3_INT

level

31

SPI_CB4

SPI_CB4_INT

level

32

SPI_CB5

SPI_CB5_INT

level

33

THERMAL

THERMAL_S_INT

Level

34

THERMAL

THERMAL_A_INT

Level

35

Reserved

UADBG_INT

Level

36

GPIO_AO

GPIO_AO_0_INT

Programmable

37

GPIO_AO

GPIO_AO_1_INT

Programmable

38

GPIO_AO

GPIO_AO_2_INT

Programmable

39

GPIO_AO

GPIO_AO_3_INT

Programmable

40

GPIO_AO

GPIO_AO_4_INT

Programmable

41

GPIO_AO

GPIO_AO_5_INT

Programmable

42

GPIO_AO

GPIO_AO_6_INT

Programmable

43

GPIO_AO

GPIO_AO_7_INT

Programmable

44

GPIO_AO

GPIO_AO_8_INT

Programmable

45

GPIO_AO

GPIO_AO_9_INT

Programmable

46

GPIO_AO

GPIO_AO_10_INT

Programmable

47

GPIO_AO

GPIO_AO_11_INT

Programmable

48

GPIO_AO

GPIO_AO_12_INT

Programmable

49

GPIO_AO

GPIO_AO_13_INT

Programmable

50

GPIO_AO

GPIO_AO_14_INT

Programmable

51

GPIO_AO

GPIO_AO_15_INT

Programmable

52

GPIO_AO

GPIO_AO_16_INT

Programmable

53

GPIO_AO

GPIO_AO_17_INT

Programmable

54

GPIO_AO

GPIO_AO_18_INT

Programmable

55

GPIO_AO

GPIO_AO_19_INT

Programmable

56

GPIO_AO

GPIO_AO_20_INT

Programmable

57

GPIO_AO

GPIO_AO_21_INT

Programmable

58

GPIO_AO

GPIO_AO_22_INT

Programmable

59

 

 

 

60

UART

UA0_INT

Level

61

UART

UA1_INT

Level

62

 

 

 

63

DISP_PWM

DISP_PWM_USER_INT_0

Edge

64

DISP_PWM

DISP_PWM_INT_END_0

Edge

65

DISP_PWM

DISP_PWM_USER_INT_1

Edge

66

DISP_PWM

DISP_PWM_INT_END_1

Edge

67

DISP_PWM

DISP_PWM_USER_INT_2

Edge

68

DISP_PWM

DISP_PWM_INT_END_2

Edge

69

DISP_PWM

DISP_PWM_USER_INT_3

Edge

70

DISP_PWM

DISP_PWM_INT_END_3

Edge

71

 

 

 

72

RBUS_in_AO

RBUS_INTERRUPT

Level

73

 

 

 

74

 

 

 

75

 

 

 

76

 

 

 

77

 

 

 

78

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT6

Level

79

MAILBOX1_CA55_to_CM4

CPU0_TO_2_DIRECT_INT7

Level

80

GPIO_AO

GPIO_AO_23_INT

Programmable

81

GPIO_AO

GPIO_AO_24_INT

Programmable

82

GPIO_AO

GPIO_AO_25_INT

Programmable

83

GPIO_AO

GPIO_AO_26_INT

Programmable

84

GPIO_AO

GPIO_AO_27_INT

Programmable

85

GPIO_AO

GPIO_AO_28_INT

Programmable

86

GPIO_AO

GPIO_AO_29_INT

Programmable

87

GPIO_AO

GPIO_AO_30_INT

Programmable

88

GPIO_AO

GPIO_AO_31_INT

Programmable

89

 

 

 

90

 

 

 

91

 

 

 

92

 

 

 

93

 

 

 

94

I2C1

I2C1_INT

Level

95

I2C2

I2C2_INT

Level

96

I2C3

I2C3_INT

Level

97

I2C4

I2C4_INT

Level

98

I2C5

I2C5_INT

Level

99

RTC

RTC_PERIODIC_INT

Edge

100

AUD

LOSD_INT

Edge

101

AUD

AUD_FIFO_INT

Level

102

AUD

AUD_TWS_LATCH_INT

Level

103

AUD

AUD_TWS_SAMPLE_INT

Level

104

 

 

 

105

 

 

 

106

 

 

 

107

 

 

 

108

 

 

 

109

 

 

 

110

I2C7

I2C7_INT

Level

111

I2C8

I2C8_INT

Level

112

I2C9

I2C9_INT

Level

113

Reserved

STC_AV3_INTERRUPT_TIMERW

Level

114

Reserved

STC_AV3_INTERRUPT_TIMER0

Edge

115

Reserved

STC_AV3_INTERRUPT_TIMER1

Edge

116

Reserved

STC_AV3_INTERRUPT_TIMER2B

Edge

117

Reserved

STC_AV3_INTERRUPT_TIMER3B

Edge

118

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT0

Level

119

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT1

Level

120

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT2

Level

121

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT3

Level

122

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT4

Level

123

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT5

Level

124

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT6

Level

125

MAILBOX1_CM4_to_CA55

CPU2_TO_0_DIRECT_INT7

Level

126

MAILBOX1_CM4_to_CA55

CPU2_TO_0_INT

Level

127

MAILBOX1_CA55_to_CM4

CPU0_TO_2_INT

Level

128

STC

STC_INTERRUPT_TIMERW

Level

129

STC

STC_INTERRUPT_TIMER0

Edge

130

STC

STC_INTERRUPT_TIMER1

Edge

131

STC

STC_INTERRUPT_TIMER2B

Edge

132

STC

STC_INTERRUPT_TIMER3B

Edge

133

STC_AV0

STC_AV0_INTERRUPT_TIMER0

Edge

134

STC_AV0

STC_AV0_INTERRUPT_TIMER1

Edge

135

STC_AV0

STC_AV0_INTERRUPT_TIMER2B

Edge

136

STC_AV0

STC_AV0_INTERRUPT_TIMER3B

Edge

137

STC_AV1

STC_AV1_INTERRUPT_TIMER0

Edge

138

STC_AV1

STC_AV1_INTERRUPT_TIMER1

Edge

139

STC_AV1

STC_AV1_INTERRUPT_TIMER2B

Edge

140

STC_AV1

STC_AV1_INTERRUPT_TIMER3B

Edge

141

RTC

SYS_RTC_INT

Edge

142

STC_AV2

STC_AV2_INTERRUPT_TIMER0

Edge

143

STC_AV2

STC_AV2_INTERRUPT_TIMER1

Edge

144

STC_AV2

STC_AV2_INTERRUPT_TIMER2B

Edge

145

STC_AV2

STC_AV2_INTERRUPT_TIMER3B

Edge

146

STC_AV0

STC_AV0_INTERRUPT_TIMERW

Level

147

STC_AV1

STC_AV1_INTERRUPT_TIMERW

Level

148

 

 

 

149

 

 

 

150

 

 

 

151

AHB_DMA

AHB_DMA0_CH0_INT

Level

152

AHB_DMA

AHB_DMA0_CH1_INT

Level

153

AHB_DMA

AHB_DMA0_CH2_INT

Level

154

AHB_DMA

AHB_DMA0_CH3_INT

Level

155

AHB_DMA

AHB_DMA0_CH4_INT

Level

156

AHB_DMA

AHB_DMA0_CH5_INT

Level

157

UART

UA2_INT

Level

158

UART

UA3_INT

Level

159

UART

UA7_INT

Level

160

AHB_DMA

AHB_DMA0_CH6_INT

Level

161

AHB_DMA

AHB_DMA0_CH7_INT

Level

162

UART

UA6_INT

Level

163

Key_Scan

SAR_INT

Level

164

Touch_Panel

RES_TOUCH_INT

Edge

165

PMC

PMC_CA55_SCUL3_PDENY_IRQ_CM4

Level

166

PMC

PMC_CA55_CORE3_PDENY_IRQ_CM4

Level

167

PMC

PMC_CA55_CORE2_PDENY_IRQ_CM4

Level

168

PMC

PMC_CA55_CORE1_PDENY_IRQ_CM4

Level

169

PMC

PMC_CA55_CORE0_PDENY_IRQ_CM4

Level

170

PMC

PMC_CA55_SCUL3_PACCEPT_IRQ_CM4

Level

171

PMC

PMC_CA55_CORE3_PACCEPT_IRQ_CM4

Level

172

PMC

PMC_CA55_CORE2_PACCEPT_IRQ_CM4

Level

173

PMC

PMC_CA55_CORE1_PACCEPT_IRQ_CM4

Level

174

PMC

PMC_CA55_CORE0_PACCEPT_IRQ_CM4

Level

175

 

 

 

176

 

 

 

177

 

 

 

178

AHB_DMA

AHB_DMA1_CH0_INT

Level

179

 

 

 

180

AHB_DMA

AHB_DMA1_CH1_INT

Level

181

 

 

 

182

 

 

 

183

 

 

 

184

 

 

 

185

STC_AV4

STC_AV4_INTERRUPT_TIMERW

Level

186

STC_AV4

STC_AV4_INTERRUPT_TIMER0

Edge

187

STC_AV4

STC_AV4_INTERRUPT_TIMER1

Edge

188

STC_AV4

STC_AV4_INTERRUPT_TIMER2B

Edge

189

STC_AV4

STC_AV4_INTERRUPT_TIMER3B

Edge

190

 

 

 

191

 

 

 

192

AHB_DMA

AHB_DMA1_CH2_INT

Level

193

AHB_DMA

AHB_DMA1_CH3_INT

Level

194

AHB_DMA

AHB_DMA1_CH4_INT

Level

195

AHB_DMA

AHB_DMA1_CH5_INT

Level

196

AHB_DMA

AHB_DMA1_CH6_INT

Level

197

 

 

 

198

 

 

 

199

AHB_DMA

AHB_DMA1_CH7_INT

Level

[200:

229]

CPIO_bypass_intr

INTERRUPT_DEF2AO[49:20]

Level

230

PMC

PMC_CA55_SCUL3_PACTIVE_ON2OFF_IRQ_CM4

Level

231

PMC

PMC_CA55_CORE3_PACTIVE_ON2OFF_IRQ_CM4

Level

232

PMC

PMC_CA55_CORE2_PACTIVE_ON2OFF_IRQ_CM4

Level

233

PMC

PMC_CA55_CORE1_PACTIVE_ON2OFF_IRQ_CM4

Level

234

PMC

PMC_CA55_CORE0_PACTIVE_ON2OFF_IRQ_CM4

Level

235

PMC

PMC_CA55_SCUL3_PACTIVE_OFF2ON_IRQ_CM4

Level

236

PMC

PMC_CA55_CORE3_PACTIVE_OFF2ON_IRQ_CM4

Level

237

PMC

PMC_CA55_CORE2_PACTIVE_OFF2ON_IRQ_CM4

Level

238

PMC

PMC_CA55_CORE1_PACTIVE_OFF2ON_IRQ_CM4

Level

239

PMC

PMC_CA55_CORE0_PACTIVE_OFF2ON_IRQ_CM4

Level

[200:

229]

CPIO_bypass_intr

INTERRUPT_DEF2AO[49:20]

Level

230

PMC

PMC_CA55_SCUL3_PACTIVE_ON2OFF_IRQ_CM4

Level

231

PMC

PMC_CA55_CORE3_PACTIVE_ON2OFF_IRQ_CM4

Level

232

PMC

PMC_CA55_CORE2_PACTIVE_ON2OFF_IRQ_CM4

Level

233

PMC

PMC_CA55_CORE1_PACTIVE_ON2OFF_IRQ_CM4

Level

234

PMC

PMC_CA55_CORE0_PACTIVE_ON2OFF_IRQ_CM4

Level

235

PMC

PMC_CA55_SCUL3_PACTIVE_OFF2ON_IRQ_CM4

Level

236

PMC

PMC_CA55_CORE3_PACTIVE_OFF2ON_IRQ_CM4

Level

237

PMC

PMC_CA55_CORE2_PACTIVE_OFF2ON_IRQ_CM4

Level

238

PMC

PMC_CA55_CORE1_PACTIVE_OFF2ON_IRQ_CM4

Level

239

PMC

PMC_CA55_CORE0_PACTIVE_OFF2ON_IRQ_CM4

Level

CPIOR Bypass Interrupt Table

C3V to other P-chip interrupts through CPIO.

Bit

Description

Hardware Name

Level/Edge

0

I2C0

I2C0_INT

Level

1

RTC_2Hz_INT_to_CM4

RTC_2HZ_INT

Edge

2

CPIOR

CPIOR_CTL_INT

Level

3

SDIO_controller

CARD_CTL2_INT

Level

4

SD_controller

CARD_CTL1_INT

Level

5

GMAC

GMAC_INT

Level

6

AXI_DMA

AXI_DMA_INT

Level

7

GMAC

GMAC_PMT_INT

Level

8

I2C6

I2C6_INT

Level

9

SPI_CB0

SPI_CB0_INT

level

10

SPI_CB1

SPI_CB1_INT

level

11

SPI_CB2

SPI_CB2_INT

level

12

SPI_CB3

SPI_CB3_INT

level

13

SPI_CB4

SPI_CB4_INT

level

14

SPI_CB5

SPI_CB5_INT

level

15

UART2AXI

UADBG_INT

Level

16

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMERW

Level

17

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER0

Edge

18

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER1

Edge

19

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER2B

Edge

20

STC_TIMESTAMP

STC_TIMESTAMP_INTERRUPT_TIMER3B

Edge

21

RTC

WakeupKey_INT

Level

22

GMAC

GMAC_LPI_INT

Level

23

UART

UA0_INT

Level

24

UART

UA1_INT

Level

25

DISP_PWM

DISP_PWM_USER_INT_0

Edge

26

DISP_PWM

DISP_PWM_INT_END_0

Edge

27

DISP_PWM

DISP_PWM_USER_INT_1

Edge

28

DISP_PWM

DISP_PWM_INT_END_1

Edge

29

DISP_PWM

DISP_PWM_USER_INT_2

Edge

30

DISP_PWM

DISP_PWM_INT_END_2

Edge

31

DISP_PWM

DISP_PWM_USER_INT_3

Edge

32

DISP_PWM

DISP_PWM_INT_END_3

Edge

33

CB_DMA0

CBDMA0_INT

Level

34

I2C1

I2C1_INT

Level

35

I2C2

I2C2_INT

Level

36

I2C3

I2C3_INT

Level

37

I2C4

I2C4_INT

Level

38

I2C5

I2C5_INT

Level

39

RTC

RTC_PERIODIC_INT

Edge

40

AUD

LOSD_INT

Edge

41

AUD

AUD_FIFO_INT

Level

42

AUD

AUD_TWS_LATCH_INT

Level

43

AUD

AUD_TWS_SAMPLE_INT

Level

44

I2C7

I2C7_INT

Level

45

I2C8

I2C8_INT

Level

46

PNAND

PNAND_ERROR_INT

level

47

STC_AV3

STC_AV3_INTERRUPT_TIMERW

Level

48

STC_AV3

STC_AV3_INTERRUPT_TIMER0

Edge

49

STC_AV3

STC_AV3_INTERRUPT_TIMER1

Edge

50

STC_AV3

STC_AV3_INTERRUPT_TIMER2B

Edge

51

STC_AV3

STC_AV3_INTERRUPT_TIMER3B

Edge

52

STC

STC_INTERRUPT_TIMERW

Level

53

STC

STC_INTERRUPT_TIMER0

Edge

54

STC

STC_INTERRUPT_TIMER1

Edge

55

STC

STC_INTERRUPT_TIMER2B

Edge

56

STC

STC_INTERRUPT_TIMER3B

Edge

57

STC_AV0

STC_AV0_INTERRUPT_TIMER0

Edge

58

STC_AV0

STC_AV0_INTERRUPT_TIMER1

Edge

59

STC_AV0

STC_AV0_INTERRUPT_TIMER2B

Edge

60

STC_AV0

STC_AV0_INTERRUPT_TIMER3B

Edge

61

STC_AV1

STC_AV1_INTERRUPT_TIMER0

Edge

62

STC_AV1

STC_AV1_INTERRUPT_TIMER1

Edge

63

STC_AV1

STC_AV1_INTERRUPT_TIMER2B

Edge

64

STC_AV1

STC_AV1_INTERRUPT_TIMER3B

Edge

65

RTC

SYS_RTC_INT

Edge

66

STC_AV2

STC_AV2_INTERRUPT_TIMER0

Edge

67

STC_AV2

STC_AV2_INTERRUPT_TIMER1

Edge

68

STC_AV2

STC_AV2_INTERRUPT_TIMER2B

Edge

69

STC_AV2

STC_AV2_INTERRUPT_TIMER3B

Edge

70

STC_AV0

STC_AV0_INTERRUPT_TIMERW

Level

71

STC_AV1

STC_AV1_INTERRUPT_TIMERW

Level

72

UPHY0

UPHY0_INT

Level

73

AHB_DMA

AHB_DMA0_CH0_INT

Level

74

AHB_DMA

AHB_DMA0_CH1_INT

Level

75

AHB_DMA

AHB_DMA0_CH2_INT

Level

76

AHB_DMA

AHB_DMA0_CH3_INT

Level

77

AHB_DMA

AHB_DMA0_CH4_INT

Level

78

AHB_DMA

AHB_DMA0_CH5_INT

Level

79

UART

UA2_INT

Level

80

UART

UA3_INT

Level

81

UART

UA7_INT

Level

82

AHB_DMA

AHB_DMA0_CH6_INT

Level

83

AHB_DMA

AHB_DMA0_CH7_INT

Level

84

UART

UA6_INT

Level

85

Key_Scan

SAR_INT

Level

86

Touch_Panel

RES_TOUCH_INT

Edge

87

I2C9

I2C9_INT

Level

88

AHB_DMA

AHB_DMA1_CH0_INT

Level

89

USB30C0

USB30C0_INT

Level

90

AHB_DMA

AHB_DMA1_CH1_INT

Level

91

USBC0

USBC0_OTG_INT

Level

92

USBC0

USBC0_DEVICE_INT

Level

93

USBC0

USBC0_EHCI_INT

Level

94

USBC0

USBC0_OHCI_INT

Level

95

STC_AV4

STC_AV4_INTERRUPT_TIMERW

Level

96

STC_AV4

STC_AV4_INTERRUPT_TIMER0

Edge

97

STC_AV4

STC_AV4_INTERRUPT_TIMER1

Edge

98

STC_AV4

STC_AV4_INTERRUPT_TIMER2B

Edge

99

STC_AV4

STC_AV4_INTERRUPT_TIMER3B

Edge

100

U3PHY

U3PHY0_INT

Level

101

AHB_DMA

AHB_DMA1_CH2_INT

Level

102

AHB_DMA

AHB_DMA1_CH3_INT

Level

103

AHB_DMA

AHB_DMA1_CH4_INT

Level

104

AHB_DMA

AHB_DMA1_CH5_INT

Level

105

AHB_DMA

AHB_DMA1_CH6_INT

Level

106

AHB_DMA

AHB_DMA1_CH7_INT

Level

107

Reserved