/* StarPU --- Runtime system for heterogeneous multicore architectures. * * Copyright (C) 2011-2013 Inria * Copyright (C) 2010-2012,2015,2017 CNRS * Copyright (C) 2009-2011,2013-2014 Université de Bordeaux * * StarPU is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at * your option) any later version. * * StarPU is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * See the GNU Lesser General Public License in COPYING.LGPL for more details. */ #include #include "cholesky.h" //#include "../common/blas.h" #ifdef STARPU_USE_CUDA #include #ifdef STARPU_HAVE_MAGMA #include "magma.h" #include "magma_lapack.h" #endif #endif /* * U22 */ static inline void chol_common_cpu_codelet_update_u22(void *descr[], int s, void *_args) { /* printf("22\n"); */ float *left = (float *)STARPU_MATRIX_GET_PTR(descr[0]); float *right = (float *)STARPU_MATRIX_GET_PTR(descr[1]); float *center = (float *)STARPU_MATRIX_GET_PTR(descr[2]); unsigned dx = STARPU_MATRIX_GET_NY(descr[2]); unsigned dy = STARPU_MATRIX_GET_NX(descr[2]); unsigned dz = STARPU_MATRIX_GET_NY(descr[0]); unsigned ld21 = STARPU_MATRIX_GET_LD(descr[0]); unsigned ld12 = STARPU_MATRIX_GET_LD(descr[1]); unsigned ld22 = STARPU_MATRIX_GET_LD(descr[2]); if (s == 0) { int worker_size = starpu_combined_worker_get_size(); if (worker_size == 1) { /* Sequential CPU kernel */ STARPU_SGEMM("N", "T", dy, dx, dz, -1.0f, left, ld21, right, ld12, 1.0f, center, ld22); } else { /* Parallel CPU kernel */ int rank = starpu_combined_worker_get_rank(); int block_size = (dx + worker_size - 1)/worker_size; int new_dx = STARPU_MIN(dx, block_size*(rank+1)) - block_size*rank; float *new_left = &left[block_size*rank]; float *new_center = ¢er[block_size*rank]; STARPU_SGEMM("N", "T", dy, new_dx, dz, -1.0f, new_left, ld21, right, ld12, 1.0f, new_center, ld22); } } else { /* CUDA kernel */ #ifdef STARPU_USE_CUDA cublasSgemm('n', 't', dy, dx, dz, -1.0f, left, ld21, right, ld12, 1.0f, center, ld22); cudaStreamSynchronize(starpu_cuda_get_local_stream()); #endif } } void chol_cpu_codelet_update_u22(void *descr[], void *_args) { chol_common_cpu_codelet_update_u22(descr, 0, _args); } #ifdef STARPU_USE_CUDA void chol_cublas_codelet_update_u22(void *descr[], void *_args) { chol_common_cpu_codelet_update_u22(descr, 1, _args); } #endif /* STARPU_USE_CUDA */ /* * U21 */ static inline void chol_common_codelet_update_u21(void *descr[], int s, void *_args) { /* printf("21\n"); */ float *sub11; float *sub21; sub11 = (float *)STARPU_MATRIX_GET_PTR(descr[0]); sub21 = (float *)STARPU_MATRIX_GET_PTR(descr[1]); unsigned ld11 = STARPU_MATRIX_GET_LD(descr[0]); unsigned ld21 = STARPU_MATRIX_GET_LD(descr[1]); unsigned nx21 = STARPU_MATRIX_GET_NY(descr[1]); unsigned ny21 = STARPU_MATRIX_GET_NX(descr[1]); switch (s) { case 0: STARPU_STRSM("R", "L", "T", "N", nx21, ny21, 1.0f, sub11, ld11, sub21, ld21); break; #ifdef STARPU_USE_CUDA case 1: cublasStrsm('R', 'L', 'T', 'N', nx21, ny21, 1.0f, sub11, ld11, sub21, ld21); cudaStreamSynchronize(starpu_cuda_get_local_stream()); break; #endif default: STARPU_ABORT(); break; } } void chol_cpu_codelet_update_u21(void *descr[], void *_args) { chol_common_codelet_update_u21(descr, 0, _args); } #ifdef STARPU_USE_CUDA void chol_cublas_codelet_update_u21(void *descr[], void *_args) { chol_common_codelet_update_u21(descr, 1, _args); } #endif /* * U11 */ static inline void chol_common_codelet_update_u11(void *descr[], int s, void *_args) { /* printf("11\n"); */ float *sub11; sub11 = (float *)STARPU_MATRIX_GET_PTR(descr[0]); unsigned nx = STARPU_MATRIX_GET_NY(descr[0]); unsigned ld = STARPU_MATRIX_GET_LD(descr[0]); unsigned z; switch (s) { case 0: /* * - alpha 11 <- lambda 11 = sqrt(alpha11) * - alpha 21 <- l 21 = alpha 21 / lambda 11 * - A22 <- A22 - l21 trans(l21) */ for (z = 0; z < nx; z++) { float lambda11; lambda11 = sqrt(sub11[z+z*ld]); sub11[z+z*ld] = lambda11; STARPU_ASSERT(lambda11 != 0.0f); STARPU_SSCAL(nx - z - 1, 1.0f/lambda11, &sub11[(z+1)+z*ld], 1); STARPU_SSYR("L", nx - z - 1, -1.0f, &sub11[(z+1)+z*ld], 1, &sub11[(z+1)+(z+1)*ld], ld); } break; #ifdef STARPU_USE_CUDA case 1: #ifdef STARPU_HAVE_MAGMA { int ret; int info; ret = magma_spotrf_gpu('L', nx, sub11, ld, &info); if (ret != MAGMA_SUCCESS) { fprintf(stderr, "Error in Magma: %d\n", ret); STARPU_ABORT(); } cudaError_t cures = cudaThreadSynchronize(); STARPU_ASSERT(!cures); } #else { float *lambda11; cudaHostAlloc((void **)&lambda11, sizeof(float), 0); for (z = 0; z < nx; z++) { cudaMemcpyAsync(lambda11, &sub11[z+z*ld], sizeof(float), cudaMemcpyDeviceToHost, starpu_cuda_get_local_stream()); cudaStreamSynchronize(starpu_cuda_get_local_stream()); STARPU_ASSERT(*lambda11 != 0.0f); *lambda11 = sqrt(*lambda11); /* cublasSetVector(1, sizeof(float), lambda11, sizeof(float), &sub11[z+z*ld], sizeof(float)); */ cudaMemcpyAsync(&sub11[z+z*ld], lambda11, sizeof(float), cudaMemcpyHostToDevice, starpu_cuda_get_local_stream()); cublasSscal(nx - z - 1, 1.0f/(*lambda11), &sub11[(z+1)+z*ld], 1); cublasSsyr('U', nx - z - 1, -1.0f, &sub11[(z+1)+z*ld], 1, &sub11[(z+1)+(z+1)*ld], ld); } cudaStreamSynchronize(starpu_cuda_get_local_stream()); cudaFreeHost(lambda11); } #endif break; #endif default: STARPU_ABORT(); break; } } void chol_cpu_codelet_update_u11(void *descr[], void *_args) { chol_common_codelet_update_u11(descr, 0, _args); } #ifdef STARPU_USE_CUDA void chol_cublas_codelet_update_u11(void *descr[], void *_args) { chol_common_codelet_update_u11(descr, 1, _args); } #endif/* STARPU_USE_CUDA */