// Copyright (c) Facebook, Inc. and its affiliates. // // This source code is licensed under the MIT license found in the // LICENSE file in the root directory of this source tree. #ifndef ops_H #define ops_H #include #include #include #include #include #include #include #include #include #include #include #include #include #define CUDA_CHECK_RETURN(value) { \ cudaError_t _m_cudaStat = value; \ if (_m_cudaStat != cudaSuccess) { \ fprintf(stderr, "Error %s at line %d in file %s\n", \ cudaGetErrorString(_m_cudaStat), __LINE__, __FILE__); \ exit(1); \ } } #define THREADS_PER_BLOCKS (512) #define CHECK_CUSPARSE(value) { \ cusparseStatus_t _m_cudaStat = value; \ if (_m_cudaStat != CUSPARSE_STATUS_SUCCESS) { \ fprintf(stderr, "Error %s at line %d in file %s\n", \ cusparseGetErrorString(_m_cudaStat), __LINE__, __FILE__); \ exit(1); \ } } #define THREADS_PER_BLOCKS (512) inline void checkCudaStatus(cudaError_t status) { if (status != cudaSuccess) { printf("cuda API failed with status %d: %s\n", status, cudaGetErrorString(status)); throw std::logic_error("cuda API failed"); } } inline int checkCublasStatus(cublasStatus_t status) { if (status != CUBLAS_STATUS_SUCCESS) { printf("cuBLAS API failed with status %d\n", status); //throw std::logic_error("cuBLAS API failed"); return 1; } return 0; } typedef enum Operations_t { ksmul = 0, } Operations_t; typedef enum Optimizer_t { ADAM = 0, MOMENTUM = 1, RMSPROP = 2, LARS = 3, ADAGRAD = 4, LION = 5, } Optimizer_t; typedef enum Transform_t { ROW = 0, COL = 1, COL32 = 2, COL_TURING = 3, COL_AMPERE = 4, } Transform_t; typedef enum DataType_t { General8bit = 0, FP4 = 1, NF4 = 2, } DataType_t; typedef enum Funcs_t { FILL = 0, ARANGE = 1, _MUL = 2, } Funcs_t; class Context { public: cublasHandle_t m_handle; Context() { cublasHandle_t handle; cublasCreate_v2(&handle); m_handle = handle; } }; class ContextLt { public: cublasLtHandle_t m_handle; ContextLt() { cublasLtHandle_t handle; cublasLtCreate(&handle); m_handle = handle; } }; class ContextCusparse { public: cusparseHandle_t m_handle; ContextCusparse() { cusparseHandle_t handle; cusparseCreate(&handle); m_handle = handle; } }; template void estimateQuantiles(T *A, float *code, float offset, int n); void quantize(float *code, float *A, unsigned char *out, int n); void dequantize(float *code, unsigned char *A, float *out, int n); template void quantizeBlockwise(float * code, T *A, float *absmax, unsigned char *out, float* rand, int rand_offset, int blocksize, const int n); template void dequantizeBlockwise(float *code, unsigned char *A, float *absmax, T *out, int block_size, const int n); template void optimizer32bit(T* g, T* p, float* state1, float* state2, float *unorm, float max_unorm, float param_norm, float beta1, float beta2, float eps, float weight_decay, int step, float lr, const float gnorm_scale, bool skip_zeros, int n); template void optimizerStatic8bit(T* p, T* g, unsigned char* state1, unsigned char* state2, float *unorm, float max_unorm, float param_norm, float beta1, float beta2, float eps, int step, float lr, float* quantiles1, float* quantiles2, float* max1, float* max2, float* new_max1, float* new_max2, float weight_decay, const float gnorm_scale, int n); template void optimizerStatic8bitBlockwise(T* p, T* g, unsigned char* state1, unsigned char* state2, float beta1, float beta2, float eps, int step, float lr, float* quantiles1, float* quantiles2, float* absmax1, float* absmax2, float weight_decay, const float gnorm_scale, bool skip_zeros, int n); template void percentileClipping(T * g, float *gnorm_vec, int step, const int n); void histogramScatterAdd2D(float* histogram, int *index1, int *index2, float *src, int maxidx1, int n); void gemmex(Context * context, bool transposeA, bool transposeB, int m, int n, int k, void *A, void *B, void *C, int lda, int ldb, int ldc); void strided_gemmex(Context *context, bool transposeA, bool transposeB, int m, int n, int k, void *A, void *B, void *C, int lda, int ldb, int ldc, long long int strideA, long long int strideB, long long int strideC, int batchCount); template int igemmlt(cublasLtHandle_t ltHandle, int m, int n, int k, const int8_t *A, const int8_t *B, void *C, float *row_scale, int lda, int ldb, int ldc); template void transform(cublasLtHandle_t ltHandle, T *A, T *out, int dim1, int dim2); void cutlass_igemm(bool transposeA, bool transposeB, int m, int n, int k, void *A, void *B, void *C, int lda, int ldb, int ldc); void dequant_mm_int32_fp16(int *A, float *rowStats, float *colStats, half *out, float* newRowStats, float* newcolStats, half* bias, int numRows, int numCols); void getColRowStats(half * A, float *rowStats, float *colStats, int *nnz_count_row, float nnz_threshold, int rows, int cols); void doubleRowColQuant(half * A, float *rowStats, float *colStats, char *out_col_normed, char *out_row_normed, int *rowidx, int *colidx, half *val, int *nnz_block_ptr, float threshold, int rows, int cols); template void transformRowToFormat(char * A, char *out, int rows, int cols); void spmm_coo(cusparseHandle_t handle, int *A_rowidx, int *A_colidx, half *A_vals, int A_nnz, int A_rows, int A_cols, int B_cols, int ldb, half *B, int ldc, half* C, bool transposed_B); template void spmm_coo_very_sparse_naive(int *max_count, int *max_idx, int *offset_rowidx, int *rowidx, int *colidx, half *values, T *B, half *out, float *dequant_stats, int nnz_rows, int nnz, int rowsA, int rowsB, int colsB); template void extractOutliers(char * A, int *idx, char *out, int idx_size, int rows, int cols); void matmul4bite(half *A, unsigned char *B, half*out, int lda, int ldb, int rowsA, int colsA, int colsB); template void gemm_host(int m, int n, int k, T * A, T* B, T * out, int lda, int ldb, int ldc, int bits); template void gemm_4bit_inference(int m, int n, int k, T * A, unsigned char* B, float *absmax, T * out, int lda, int ldb, int ldc, int blocksize); template void gemm_4bit_inference_naive(int m, int n, int k, T * A, unsigned char* B, float *absmax, float *datatype, T * out, int lda, int ldb, int ldc, int blocksize); template void func(T *A, T *B, T value, long n); #endif