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cublas_wrappers.cu
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cublas_wrappers.cu
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#include "cublas_wrappers.h"
int cublas_gemm_ex(cublasHandle_t handle,
cublasOperation_t transa,
cublasOperation_t transb,
int m,
int n,
int k,
const float* alpha,
const float* beta,
const float* A,
const float* B,
float* C,
cublasGemmAlgo_t algo)
{
cublasStatus_t status = cublasGemmEx(handle,
transa,
transb,
m,
n,
k,
(const void*)alpha,
(const void*)A,
CUDA_R_32F,
(transa == CUBLAS_OP_N) ? m : k,
(const void*)B,
CUDA_R_32F,
(transb == CUBLAS_OP_N) ? k : n,
(const void*)beta,
C,
CUDA_R_32F,
m,
CUDA_R_32F,
algo);
if (status != CUBLAS_STATUS_SUCCESS) {
fprintf(stderr, "!!!! kernel execution error.\n");
return EXIT_FAILURE;
}
return 0;
}
int cublas_gemm_ex(cublasHandle_t handle,
cublasOperation_t transa,
cublasOperation_t transb,
int m,
int n,
int k,
const float* alpha,
const float* beta,
const __half* A,
const __half* B,
__half* C,
cublasGemmAlgo_t algo)
{
cublasStatus_t status = cublasGemmEx(handle,
transa,
transb,
m,
n,
k,
(const void*)alpha,
(const void*)A,
CUDA_R_16F,
(transa == CUBLAS_OP_N) ? m : k,
(const void*)B,
CUDA_R_16F,
(transb == CUBLAS_OP_N) ? k : n,
(const void*)beta,
(void*)C,
CUDA_R_16F,
m,
CUDA_R_32F,
algo);
if (status != CUBLAS_STATUS_SUCCESS) {
fprintf(stderr, "!!!! kernel execution error.\n");
return EXIT_FAILURE;
}
return 0;
}
int cublas_strided_batched_gemm(cublasHandle_t handle,
int m,
int n,
int k,
const float* alpha,
const float* beta,
const float* A,
const float* B,
float* C,
cublasOperation_t op_A,
cublasOperation_t op_B,
int stride_A,
int stride_B,
int stride_C,
int batch,
cublasGemmAlgo_t algo)
{
cublasStatus_t status = cublasGemmStridedBatchedEx(handle,
op_A,
op_B,
m,
n,
k,
alpha,
A,
CUDA_R_32F,
(op_A == CUBLAS_OP_N) ? m : k,
stride_A,
B,
CUDA_R_32F,
(op_B == CUBLAS_OP_N) ? k : n,
stride_B,
beta,
C,
CUDA_R_32F,
m,
stride_C,
batch,
CUDA_R_32F,
algo);
if (status != CUBLAS_STATUS_SUCCESS) {
fprintf(stderr, "!!!! kernel execution error.\n");
return EXIT_FAILURE;
}
return 0;
}
int cublas_strided_batched_gemm(cublasHandle_t handle,
int m,
int n,
int k,
const float* alpha,
const float* beta,
const __half* A,
const __half* B,
__half* C,
cublasOperation_t op_A,
cublasOperation_t op_B,
int stride_A,
int stride_B,
int stride_C,
int batch,
cublasGemmAlgo_t algo)
{
cublasStatus_t status = cublasGemmStridedBatchedEx(handle,
op_A,
op_B,
m,
n,
k,
alpha,
A,
CUDA_R_16F,
(op_A == CUBLAS_OP_N) ? m : k,
stride_A,
B,
CUDA_R_16F,
(op_B == CUBLAS_OP_N) ? k : n,
stride_B,
beta,
C,
CUDA_R_16F,
m,
stride_C,
batch,
CUDA_R_32F,
algo);
if (status != CUBLAS_STATUS_SUCCESS) {
fprintf(stderr, "!!!! kernel execution error.\n");
return EXIT_FAILURE;
}
return 0;
}