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The HK packet contains v, e1 and e2 valid data at f3....
The HK packet contains v, e1 and e2 valid data at f3. The ACTN task mode is set to NO_PREEMPT In BURST, f3 flow is enabled to allow the v, e1 and e2 data pick-up for HK
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r127:3be3eafe14de VHDLib206
r129:85c441b3b744 VHDLib206
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grlib_regs.h
100 lines | 3.3 KiB | text/x-c | CLexer
/ header / grlib_regs.h
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#ifndef GRLIB_REGS_H_INCLUDED
#define GRLIB_REGS_H_INCLUDED
#define NB_GPTIMER 3
struct apbuart_regs_str{
volatile unsigned int data;
volatile unsigned int status;
volatile unsigned int ctrl;
volatile unsigned int scaler;
volatile unsigned int fifoDebug;
};
struct grgpio_regs_str{
volatile int io_port_data_register;
int io_port_output_register;
int io_port_direction_register;
int interrupt_mak_register;
int interrupt_polarity_register;
int interrupt_edge_register;
int bypass_register;
int reserved;
// 0x20-0x3c interrupt map register(s)
};
typedef struct {
volatile unsigned int counter;
volatile unsigned int reload;
volatile unsigned int ctrl;
volatile unsigned int unused;
} timer_regs_t;
typedef struct {
volatile unsigned int scaler_value;
volatile unsigned int scaler_reload;
volatile unsigned int conf;
volatile unsigned int unused0;
timer_regs_t timer[NB_GPTIMER];
} gptimer_regs_t;
typedef struct {
volatile int ctrl; // bit 0 forces the load of the coarse_time_load value and resets the fine_time
volatile int coarse_time_load;
volatile int coarse_time;
volatile int fine_time;
} time_management_regs_t;
typedef struct {
volatile int data_shaping; // 0x00 00 *** R1 R0 SP1 SP0 BW
volatile int burst_enable; // 0x04 01 *** burst f2, f1, f0 enable f3, f2, f1, f0
volatile int addr_data_f0; // 0x08 10 ***
volatile int addr_data_f1; // 0x0c 11 ***
volatile int addr_data_f2; // 0x10 100 ***
volatile int addr_data_f3; // 0x14 101 ***
volatile int status; // 0x18 110 ***
volatile int delta_snapshot; // 0x1c 111 ***
volatile int delta_f2_f1; // 0x20 0000 ***
volatile int delta_f2_f0; // 0x24 0001 ***
volatile int nb_burst_available;// 0x28 0010 ***
volatile int nb_snapshot_param; // 0x2c 0011 ***
} waveform_picker_regs_t;
typedef struct{
int data_shaping; // 0x00 00 *** R1 R0 SP1 SP0 BW
int run_burst_enable; // 0x04 01 *** [run *** burst f2, f1, f0 *** enable f3, f2, f1, f0 ]
int addr_data_f0; // 0x08
int addr_data_f1; // 0x0c
int addr_data_f2; // 0x10
int addr_data_f3; // 0x14
volatile int status; // 0x18
int delta_snapshot; // 0x1c
int delta_f0; // 0x20
int delta_f0_2; // 0x24
int delta_f1; // 0x28
int delta_f2; // 0x2c
int nb_data_by_buffer; // 0x30
int snapshot_param; // 0x34
int start_date; // 0x38
int nb_word_in_buffer; // 0x3c
} waveform_picker_regs_new_t;
typedef struct {
volatile int config; // 0x00
volatile int status; // 0x04
volatile int matrixF0_Address0; // 0x08
volatile int matrixFO_Address1; // 0x0C
volatile int matrixF1_Address; // 0x10
volatile int matrixF2_Address; // 0x14
volatile int coarse_time_F0_0; // 0x18
volatile int coarse_time_F0_1; // 0x1C
volatile int coarse_time_F1; // 0x20
volatile int coarse_time_F2; // 0x24
volatile int fine_time_FO_0; // 0x28
volatile int fine_time_F0_1; // 0x2C
volatile int fine_time_F1; // 0x30
volatile int fine_time_F2; // 0x34
volatile int debug; // 0x38
} spectral_matrix_regs_t;
#endif // GRLIB_REGS_H_INCLUDED