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#ifndef _COMMON_H_
#define _COMMON_H_
// Transfer size between MRAM and WRAM
#ifdef BL
#define BLOCK_SIZE_LOG2 BL
#define BLOCK_SIZE (1 << BLOCK_SIZE_LOG2)
#else
#define BLOCK_SIZE_LOG2 8
#define BLOCK_SIZE (1 << BLOCK_SIZE_LOG2)
#define BL BLOCK_SIZE_LOG2
#endif
// Data type
#ifdef UINT32
#define T uint32_t
#define DIV 2 // Shift right to divide by sizeof(T)
#elif UINT64
#define T uint64_t
#define DIV 3 // Shift right to divide by sizeof(T)
#elif INT32
#define T int32_t
#define DIV 2 // Shift right to divide by sizeof(T)
#elif INT64
#define T int64_t
#define DIV 3 // Shift right to divide by sizeof(T)
#elif FLOAT
#define T float
#define DIV 2 // Shift right to divide by sizeof(T)
#elif DOUBLE
#define T double
#define DIV 3 // Shift right to divide by sizeof(T)
#elif CHAR
#define T char
#define DIV 0 // Shift right to divide by sizeof(T)
#elif SHORT
#define T short
#define DIV 1 // Shift right to divide by sizeof(T)
#endif
#define REGS (BLOCK_SIZE >> DIV)
// Structures used by both the host and the dpu to communicate information
typedef struct {
uint32_t size;
enum kernels {
kernel1 = 0,
kernel2 = 1,
nr_kernels = 2,
} kernel;
T t_count;
} dpu_arguments_t;
typedef struct {
T t_count;
} dpu_results_t;
#ifndef ENERGY
#define ENERGY 0
#endif
#define PRINT 0
#define ANSI_COLOR_RED "\x1b[31m"
#define ANSI_COLOR_GREEN "\x1b[32m"
#define ANSI_COLOR_RESET "\x1b[0m"
#define divceil(n, m) (((n)-1) / (m) + 1)
#define roundup(n, m) ((n / m) * m + m)
#endif
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