/* ************************************************************************ * Copyright 2016 Advanced Micro Devices, Inc. * * ************************************************************************ */ #include #include #include #include "cblas_interface.h" #include "hipblas.hpp" #include "norm.h" #include "unit.h" #include "utility.h" #include using namespace std; /* ============================================================================================ */ template hipblasStatus_t testing_asum_strided_batched(Arguments argus) { int N = argus.N; int incx = argus.incx; int stride_scale = argus.stride_scale; int batch_count = argus.batch_count; int stridex = N * incx * stride_scale; int sizeX = stridex * batch_count; hipblasStatus_t status_1 = HIPBLAS_STATUS_SUCCESS; hipblasStatus_t status_2 = HIPBLAS_STATUS_SUCCESS; hipblasStatus_t status_3 = HIPBLAS_STATUS_SUCCESS; hipblasStatus_t status_4 = HIPBLAS_STATUS_SUCCESS; double gpu_time_used, cpu_time_used; double rocblas_error; hipblasHandle_t handle; hipblasCreate(&handle); // check to prevent undefined memory allocation error if(N < 0 || incx < 0 || batch_count < 0) { return HIPBLAS_STATUS_INVALID_VALUE; } if(batch_count == 0) { // return early so we don't get invalid_value from rocblas because of bad result pointer return HIPBLAS_STATUS_SUCCESS; } // Naming: dX is in GPU (device) memory. hK is in CPU (host) memory, plz follow this practice host_vector hx(sizeX); host_vector cpu_result(batch_count); host_vector rocblas_result1(batch_count); host_vector rocblas_result2(batch_count); device_vector dx(sizeX); device_vector d_rocblas_result(batch_count); int device_pointer = 1; int host_pointer = 1; // Initial Data on CPU srand(1); hipblas_init(hx, 1, N, incx, stridex, batch_count); // copy data from CPU to device, does not work for incx != 1 CHECK_HIP_ERROR(hipMemcpy(dx, hx.data(), sizeof(T1) * sizeX, hipMemcpyHostToDevice)); /* ===================================================================== ROCBLAS =================================================================== */ // hipblasAsum accept both dev/host pointer for the scalar if(device_pointer) { status_1 = hipblasSetPointerMode(handle, HIPBLAS_POINTER_MODE_DEVICE); status_2 = hipblasAsumStridedBatched( handle, N, dx, incx, stridex, batch_count, d_rocblas_result); } if(host_pointer) { status_3 = hipblasSetPointerMode(handle, HIPBLAS_POINTER_MODE_HOST); status_4 = hipblasAsumStridedBatched( handle, N, dx, incx, stridex, batch_count, rocblas_result1); } if((status_1 != HIPBLAS_STATUS_SUCCESS) || (status_2 != HIPBLAS_STATUS_SUCCESS) || (status_3 != HIPBLAS_STATUS_SUCCESS) || (status_4 != HIPBLAS_STATUS_SUCCESS)) { hipblasDestroy(handle); if(status_1 != HIPBLAS_STATUS_SUCCESS) return status_1; if(status_2 != HIPBLAS_STATUS_SUCCESS) return status_2; if(status_3 != HIPBLAS_STATUS_SUCCESS) return status_3; if(status_4 != HIPBLAS_STATUS_SUCCESS) return status_4; } if(device_pointer) CHECK_HIP_ERROR(hipMemcpy( rocblas_result2, d_rocblas_result, sizeof(T2) * batch_count, hipMemcpyDeviceToHost)); if(argus.unit_check) { /* ===================================================================== CPU BLAS =================================================================== */ for(int b = 0; b < batch_count; b++) { cblas_asum(N, hx.data() + b * stridex, incx, &cpu_result[b]); } if(argus.unit_check) { unit_check_general(1, batch_count, 1, cpu_result, rocblas_result1); unit_check_general(1, batch_count, 1, cpu_result, rocblas_result2); } } // end of if unit/norm check // BLAS_1_RESULT_PRINT hipblasDestroy(handle); return HIPBLAS_STATUS_SUCCESS; }