15aed82e4SJeremy L Thompson // Copyright (c) 2017-2024, Lawrence Livermore National Security, LLC and other CEED contributors. 2ff1e7120SSebastian Grimberg // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3ff1e7120SSebastian Grimberg // 4ff1e7120SSebastian Grimberg // SPDX-License-Identifier: BSD-2-Clause 5ff1e7120SSebastian Grimberg // 6ff1e7120SSebastian Grimberg // This file is part of CEED: http://github.com/ceed 7ff1e7120SSebastian Grimberg 8ff1e7120SSebastian Grimberg #include <ceed.h> 9ff1e7120SSebastian Grimberg #include <ceed/backend.h> 10ff1e7120SSebastian Grimberg #include <cuda_runtime.h> 11ff1e7120SSebastian Grimberg #include <math.h> 12ff1e7120SSebastian Grimberg #include <stdbool.h> 13ff1e7120SSebastian Grimberg #include <string.h> 14ff1e7120SSebastian Grimberg 15ff1e7120SSebastian Grimberg #include "../cuda/ceed-cuda-common.h" 16ff1e7120SSebastian Grimberg #include "ceed-cuda-ref.h" 17ff1e7120SSebastian Grimberg 18ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 19ff1e7120SSebastian Grimberg // Check if host/device sync is needed 20ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 21ff1e7120SSebastian Grimberg static inline int CeedVectorNeedSync_Cuda(const CeedVector vec, CeedMemType mem_type, bool *need_sync) { 22ff1e7120SSebastian Grimberg bool has_valid_array = false; 23ca735530SJeremy L Thompson CeedVector_Cuda *impl; 24ca735530SJeremy L Thompson 25ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 26ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorHasValidArray(vec, &has_valid_array)); 27ff1e7120SSebastian Grimberg switch (mem_type) { 28ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 29ff1e7120SSebastian Grimberg *need_sync = has_valid_array && !impl->h_array; 30ff1e7120SSebastian Grimberg break; 31ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 32ff1e7120SSebastian Grimberg *need_sync = has_valid_array && !impl->d_array; 33ff1e7120SSebastian Grimberg break; 34ff1e7120SSebastian Grimberg } 35ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 36ff1e7120SSebastian Grimberg } 37ff1e7120SSebastian Grimberg 38ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 39ff1e7120SSebastian Grimberg // Sync host to device 40ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 41ff1e7120SSebastian Grimberg static inline int CeedVectorSyncH2D_Cuda(const CeedVector vec) { 42ca735530SJeremy L Thompson CeedSize length; 43672b0f2aSSebastian Grimberg size_t bytes; 44ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 45ca735530SJeremy L Thompson 46ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(vec, &impl)); 47ff1e7120SSebastian Grimberg 486e536b99SJeremy L Thompson CeedCheck(impl->h_array, CeedVectorReturnCeed(vec), CEED_ERROR_BACKEND, "No valid host data to sync to device"); 49ff1e7120SSebastian Grimberg 50ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(vec, &length)); 51672b0f2aSSebastian Grimberg bytes = length * sizeof(CeedScalar); 52ff1e7120SSebastian Grimberg if (impl->d_array_borrowed) { 53ff1e7120SSebastian Grimberg impl->d_array = impl->d_array_borrowed; 54ff1e7120SSebastian Grimberg } else if (impl->d_array_owned) { 55ff1e7120SSebastian Grimberg impl->d_array = impl->d_array_owned; 56ff1e7120SSebastian Grimberg } else { 579bc66399SJeremy L Thompson CeedCallCuda(CeedVectorReturnCeed(vec), cudaMalloc((void **)&impl->d_array_owned, bytes)); 58ff1e7120SSebastian Grimberg impl->d_array = impl->d_array_owned; 59ff1e7120SSebastian Grimberg } 609bc66399SJeremy L Thompson CeedCallCuda(CeedVectorReturnCeed(vec), cudaMemcpy(impl->d_array, impl->h_array, bytes, cudaMemcpyHostToDevice)); 61ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 62ff1e7120SSebastian Grimberg } 63ff1e7120SSebastian Grimberg 64ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 65ff1e7120SSebastian Grimberg // Sync device to host 66ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 67ff1e7120SSebastian Grimberg static inline int CeedVectorSyncD2H_Cuda(const CeedVector vec) { 68ca735530SJeremy L Thompson CeedSize length; 69ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 70ca735530SJeremy L Thompson 71ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(vec, &impl)); 72ff1e7120SSebastian Grimberg 739bc66399SJeremy L Thompson CeedCheck(impl->d_array, CeedVectorReturnCeed(vec), CEED_ERROR_BACKEND, "No valid device data to sync to host"); 74ff1e7120SSebastian Grimberg 75ff1e7120SSebastian Grimberg if (impl->h_array_borrowed) { 76ff1e7120SSebastian Grimberg impl->h_array = impl->h_array_borrowed; 77ff1e7120SSebastian Grimberg } else if (impl->h_array_owned) { 78ff1e7120SSebastian Grimberg impl->h_array = impl->h_array_owned; 79ff1e7120SSebastian Grimberg } else { 80ff1e7120SSebastian Grimberg CeedSize length; 81ca735530SJeremy L Thompson 82ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(vec, &length)); 83ff1e7120SSebastian Grimberg CeedCallBackend(CeedCalloc(length, &impl->h_array_owned)); 84ff1e7120SSebastian Grimberg impl->h_array = impl->h_array_owned; 85ff1e7120SSebastian Grimberg } 86ff1e7120SSebastian Grimberg 87ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(vec, &length)); 88ff1e7120SSebastian Grimberg size_t bytes = length * sizeof(CeedScalar); 89ff1e7120SSebastian Grimberg 909bc66399SJeremy L Thompson CeedCallCuda(CeedVectorReturnCeed(vec), cudaMemcpy(impl->h_array, impl->d_array, bytes, cudaMemcpyDeviceToHost)); 91ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 92ff1e7120SSebastian Grimberg } 93ff1e7120SSebastian Grimberg 94ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 95ff1e7120SSebastian Grimberg // Sync arrays 96ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 97ff1e7120SSebastian Grimberg static int CeedVectorSyncArray_Cuda(const CeedVector vec, CeedMemType mem_type) { 98ff1e7120SSebastian Grimberg bool need_sync = false; 99ca735530SJeremy L Thompson 100ca735530SJeremy L Thompson // Check whether device/host sync is needed 101ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorNeedSync_Cuda(vec, mem_type, &need_sync)); 102ff1e7120SSebastian Grimberg if (!need_sync) return CEED_ERROR_SUCCESS; 103ff1e7120SSebastian Grimberg 104ff1e7120SSebastian Grimberg switch (mem_type) { 105ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 106ff1e7120SSebastian Grimberg return CeedVectorSyncD2H_Cuda(vec); 107ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 108ff1e7120SSebastian Grimberg return CeedVectorSyncH2D_Cuda(vec); 109ff1e7120SSebastian Grimberg } 110ff1e7120SSebastian Grimberg return CEED_ERROR_UNSUPPORTED; 111ff1e7120SSebastian Grimberg } 112ff1e7120SSebastian Grimberg 113ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 114ff1e7120SSebastian Grimberg // Set all pointers as invalid 115ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 116ff1e7120SSebastian Grimberg static inline int CeedVectorSetAllInvalid_Cuda(const CeedVector vec) { 117ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 118ff1e7120SSebastian Grimberg 119ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 120ff1e7120SSebastian Grimberg impl->h_array = NULL; 121ff1e7120SSebastian Grimberg impl->d_array = NULL; 122ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 123ff1e7120SSebastian Grimberg } 124ff1e7120SSebastian Grimberg 125ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 126ff1e7120SSebastian Grimberg // Check if CeedVector has any valid pointer 127ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 128ff1e7120SSebastian Grimberg static inline int CeedVectorHasValidArray_Cuda(const CeedVector vec, bool *has_valid_array) { 129ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 130ca735530SJeremy L Thompson 131ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(vec, &impl)); 1321c66c397SJeremy L Thompson *has_valid_array = impl->h_array || impl->d_array; 133ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 134ff1e7120SSebastian Grimberg } 135ff1e7120SSebastian Grimberg 136ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 137ff1e7120SSebastian Grimberg // Check if has array of given type 138ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 139ff1e7120SSebastian Grimberg static inline int CeedVectorHasArrayOfType_Cuda(const CeedVector vec, CeedMemType mem_type, bool *has_array_of_type) { 140ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 141ff1e7120SSebastian Grimberg 142ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 143ff1e7120SSebastian Grimberg switch (mem_type) { 144ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 1451c66c397SJeremy L Thompson *has_array_of_type = impl->h_array_borrowed || impl->h_array_owned; 146ff1e7120SSebastian Grimberg break; 147ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 1481c66c397SJeremy L Thompson *has_array_of_type = impl->d_array_borrowed || impl->d_array_owned; 149ff1e7120SSebastian Grimberg break; 150ff1e7120SSebastian Grimberg } 151ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 152ff1e7120SSebastian Grimberg } 153ff1e7120SSebastian Grimberg 154ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 155ff1e7120SSebastian Grimberg // Check if has borrowed array of given type 156ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 157ff1e7120SSebastian Grimberg static inline int CeedVectorHasBorrowedArrayOfType_Cuda(const CeedVector vec, CeedMemType mem_type, bool *has_borrowed_array_of_type) { 158ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 159ff1e7120SSebastian Grimberg 160ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 161ff1e7120SSebastian Grimberg switch (mem_type) { 162ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 1631c66c397SJeremy L Thompson *has_borrowed_array_of_type = impl->h_array_borrowed; 164ff1e7120SSebastian Grimberg break; 165ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 1661c66c397SJeremy L Thompson *has_borrowed_array_of_type = impl->d_array_borrowed; 167ff1e7120SSebastian Grimberg break; 168ff1e7120SSebastian Grimberg } 169ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 170ff1e7120SSebastian Grimberg } 171ff1e7120SSebastian Grimberg 172ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 173ff1e7120SSebastian Grimberg // Set array from host 174ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 175ff1e7120SSebastian Grimberg static int CeedVectorSetArrayHost_Cuda(const CeedVector vec, const CeedCopyMode copy_mode, CeedScalar *array) { 176a267acd1SJeremy L Thompson CeedSize length; 177ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 178ff1e7120SSebastian Grimberg 179ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 180ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(vec, &length)); 181a267acd1SJeremy L Thompson 182f5d1e504SJeremy L Thompson CeedCallBackend(CeedSetHostCeedScalarArray(array, copy_mode, length, (const CeedScalar **)&impl->h_array_owned, 183f5d1e504SJeremy L Thompson (const CeedScalar **)&impl->h_array_borrowed, (const CeedScalar **)&impl->h_array)); 184ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 185ff1e7120SSebastian Grimberg } 186ff1e7120SSebastian Grimberg 187ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 188ff1e7120SSebastian Grimberg // Set array from device 189ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 190ff1e7120SSebastian Grimberg static int CeedVectorSetArrayDevice_Cuda(const CeedVector vec, const CeedCopyMode copy_mode, CeedScalar *array) { 191a267acd1SJeremy L Thompson CeedSize length; 192ff1e7120SSebastian Grimberg Ceed ceed; 193ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 194ff1e7120SSebastian Grimberg 195ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetCeed(vec, &ceed)); 196ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 197ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(vec, &length)); 198a267acd1SJeremy L Thompson 199f5d1e504SJeremy L Thompson CeedCallBackend(CeedSetDeviceCeedScalarArray_Cuda(ceed, array, copy_mode, length, (const CeedScalar **)&impl->d_array_owned, 200f5d1e504SJeremy L Thompson (const CeedScalar **)&impl->d_array_borrowed, (const CeedScalar **)&impl->d_array)); 2019bc66399SJeremy L Thompson CeedCallBackend(CeedDestroy(&ceed)); 202ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 203ff1e7120SSebastian Grimberg } 204ff1e7120SSebastian Grimberg 205ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 206ff1e7120SSebastian Grimberg // Set the array used by a vector, 207ff1e7120SSebastian Grimberg // freeing any previously allocated array if applicable 208ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 209ff1e7120SSebastian Grimberg static int CeedVectorSetArray_Cuda(const CeedVector vec, const CeedMemType mem_type, const CeedCopyMode copy_mode, CeedScalar *array) { 210ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 211ff1e7120SSebastian Grimberg 212ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 213ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSetAllInvalid_Cuda(vec)); 214ff1e7120SSebastian Grimberg switch (mem_type) { 215ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 216ff1e7120SSebastian Grimberg return CeedVectorSetArrayHost_Cuda(vec, copy_mode, array); 217ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 218ff1e7120SSebastian Grimberg return CeedVectorSetArrayDevice_Cuda(vec, copy_mode, array); 219ff1e7120SSebastian Grimberg } 220ff1e7120SSebastian Grimberg return CEED_ERROR_UNSUPPORTED; 221ff1e7120SSebastian Grimberg } 222ff1e7120SSebastian Grimberg 223ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 224f1c2287bSJeremy L Thompson // Copy host array to value strided 225f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 226f1c2287bSJeremy L Thompson static int CeedHostCopyStrided_Cuda(CeedScalar *h_array, CeedSize start, CeedSize step, CeedSize length, CeedScalar *h_copy_array) { 227f1c2287bSJeremy L Thompson for (CeedSize i = start; i < length; i += step) h_copy_array[i] = h_array[i]; 228f1c2287bSJeremy L Thompson return CEED_ERROR_SUCCESS; 229f1c2287bSJeremy L Thompson } 230f1c2287bSJeremy L Thompson 231f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 232f1c2287bSJeremy L Thompson // Copy device array to value strided (impl in .cu file) 233f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 234f1c2287bSJeremy L Thompson int CeedDeviceCopyStrided_Cuda(CeedScalar *d_array, CeedSize start, CeedSize step, CeedSize length, CeedScalar *d_copy_array); 235f1c2287bSJeremy L Thompson 236f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 237f1c2287bSJeremy L Thompson // Copy a vector to a value strided 238f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 239f1c2287bSJeremy L Thompson static int CeedVectorCopyStrided_Cuda(CeedVector vec, CeedSize start, CeedSize step, CeedVector vec_copy) { 240f1c2287bSJeremy L Thompson CeedSize length; 241f1c2287bSJeremy L Thompson CeedVector_Cuda *impl; 242f1c2287bSJeremy L Thompson 243f1c2287bSJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 244a7efc114SJeremy L Thompson { 245a7efc114SJeremy L Thompson CeedSize length_vec, length_copy; 246a7efc114SJeremy L Thompson 2475a5594ffSJeremy L Thompson CeedCallBackend(CeedVectorGetLength(vec, &length_vec)); 2485a5594ffSJeremy L Thompson CeedCallBackend(CeedVectorGetLength(vec_copy, &length_copy)); 249a7efc114SJeremy L Thompson length = length_vec < length_copy ? length_vec : length_copy; 250a7efc114SJeremy L Thompson } 251f1c2287bSJeremy L Thompson // Set value for synced device/host array 252f1c2287bSJeremy L Thompson if (impl->d_array) { 253f1c2287bSJeremy L Thompson CeedScalar *copy_array; 254f1c2287bSJeremy L Thompson 255f1c2287bSJeremy L Thompson CeedCallBackend(CeedVectorGetArray(vec_copy, CEED_MEM_DEVICE, ©_array)); 256f1c2287bSJeremy L Thompson CeedCallBackend(CeedDeviceCopyStrided_Cuda(impl->d_array, start, step, length, copy_array)); 257f1c2287bSJeremy L Thompson CeedCallBackend(CeedVectorRestoreArray(vec_copy, ©_array)); 258f1c2287bSJeremy L Thompson } else if (impl->h_array) { 259f1c2287bSJeremy L Thompson CeedScalar *copy_array; 260f1c2287bSJeremy L Thompson 261f1c2287bSJeremy L Thompson CeedCallBackend(CeedVectorGetArray(vec_copy, CEED_MEM_HOST, ©_array)); 262f1c2287bSJeremy L Thompson CeedCallBackend(CeedHostCopyStrided_Cuda(impl->h_array, start, step, length, copy_array)); 263f1c2287bSJeremy L Thompson CeedCallBackend(CeedVectorRestoreArray(vec_copy, ©_array)); 264f1c2287bSJeremy L Thompson } else { 265f1c2287bSJeremy L Thompson return CeedError(CeedVectorReturnCeed(vec), CEED_ERROR_BACKEND, "CeedVector must have valid data set"); 266f1c2287bSJeremy L Thompson } 267f1c2287bSJeremy L Thompson return CEED_ERROR_SUCCESS; 268f1c2287bSJeremy L Thompson } 269f1c2287bSJeremy L Thompson 270f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 271ff1e7120SSebastian Grimberg // Set host array to value 272ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 273f7c1b517Snbeams static int CeedHostSetValue_Cuda(CeedScalar *h_array, CeedSize length, CeedScalar val) { 274f7c1b517Snbeams for (CeedSize i = 0; i < length; i++) h_array[i] = val; 275ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 276ff1e7120SSebastian Grimberg } 277ff1e7120SSebastian Grimberg 278ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 279ff1e7120SSebastian Grimberg // Set device array to value (impl in .cu file) 280ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 281f7c1b517Snbeams int CeedDeviceSetValue_Cuda(CeedScalar *d_array, CeedSize length, CeedScalar val); 282ff1e7120SSebastian Grimberg 283ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 284f7c1b517Snbeams // Set a vector to a value 285ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 286ff1e7120SSebastian Grimberg static int CeedVectorSetValue_Cuda(CeedVector vec, CeedScalar val) { 287ff1e7120SSebastian Grimberg CeedSize length; 288ca735530SJeremy L Thompson CeedVector_Cuda *impl; 289ff1e7120SSebastian Grimberg 290ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 291ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetLength(vec, &length)); 292ff1e7120SSebastian Grimberg // Set value for synced device/host array 293ff1e7120SSebastian Grimberg if (!impl->d_array && !impl->h_array) { 294ff1e7120SSebastian Grimberg if (impl->d_array_borrowed) { 295ff1e7120SSebastian Grimberg impl->d_array = impl->d_array_borrowed; 296ff1e7120SSebastian Grimberg } else if (impl->h_array_borrowed) { 297ff1e7120SSebastian Grimberg impl->h_array = impl->h_array_borrowed; 298ff1e7120SSebastian Grimberg } else if (impl->d_array_owned) { 299ff1e7120SSebastian Grimberg impl->d_array = impl->d_array_owned; 300ff1e7120SSebastian Grimberg } else if (impl->h_array_owned) { 301ff1e7120SSebastian Grimberg impl->h_array = impl->h_array_owned; 302ff1e7120SSebastian Grimberg } else { 303ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSetArray(vec, CEED_MEM_DEVICE, CEED_COPY_VALUES, NULL)); 304ff1e7120SSebastian Grimberg } 305ff1e7120SSebastian Grimberg } 306ff1e7120SSebastian Grimberg if (impl->d_array) { 307*124cc107SJeremy L Thompson if (val == 0) { 308*124cc107SJeremy L Thompson CeedCallCuda(CeedVectorReturnCeed(vec), cudaMemset(impl->d_array, 0, length * sizeof(CeedScalar))); 309*124cc107SJeremy L Thompson } else { 310ff1e7120SSebastian Grimberg CeedCallBackend(CeedDeviceSetValue_Cuda(impl->d_array, length, val)); 311ff1e7120SSebastian Grimberg } 312*124cc107SJeremy L Thompson impl->h_array = NULL; 313*124cc107SJeremy L Thompson } else if (impl->h_array) { 314ff1e7120SSebastian Grimberg CeedCallBackend(CeedHostSetValue_Cuda(impl->h_array, length, val)); 315ff1e7120SSebastian Grimberg impl->d_array = NULL; 316ff1e7120SSebastian Grimberg } 317ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 318ff1e7120SSebastian Grimberg } 319ff1e7120SSebastian Grimberg 320ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 321f1c2287bSJeremy L Thompson // Set host array to value strided 322f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 323f1c2287bSJeremy L Thompson static int CeedHostSetValueStrided_Cuda(CeedScalar *h_array, CeedSize start, CeedSize step, CeedSize length, CeedScalar val) { 324f1c2287bSJeremy L Thompson for (CeedSize i = start; i < length; i += step) h_array[i] = val; 325f1c2287bSJeremy L Thompson return CEED_ERROR_SUCCESS; 326f1c2287bSJeremy L Thompson } 327f1c2287bSJeremy L Thompson 328f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 329f1c2287bSJeremy L Thompson // Set device array to value strided (impl in .cu file) 330f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 331f1c2287bSJeremy L Thompson int CeedDeviceSetValueStrided_Cuda(CeedScalar *d_array, CeedSize start, CeedSize step, CeedSize length, CeedScalar val); 332f1c2287bSJeremy L Thompson 333f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 334f1c2287bSJeremy L Thompson // Set a vector to a value strided 335f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 336f1c2287bSJeremy L Thompson static int CeedVectorSetValueStrided_Cuda(CeedVector vec, CeedSize start, CeedSize step, CeedScalar val) { 337f1c2287bSJeremy L Thompson CeedSize length; 338f1c2287bSJeremy L Thompson CeedVector_Cuda *impl; 339f1c2287bSJeremy L Thompson 340f1c2287bSJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 341f1c2287bSJeremy L Thompson CeedCallBackend(CeedVectorGetLength(vec, &length)); 342f1c2287bSJeremy L Thompson // Set value for synced device/host array 343f1c2287bSJeremy L Thompson if (impl->d_array) { 344f1c2287bSJeremy L Thompson CeedCallBackend(CeedDeviceSetValueStrided_Cuda(impl->d_array, start, step, length, val)); 345f1c2287bSJeremy L Thompson impl->h_array = NULL; 346f1c2287bSJeremy L Thompson } else if (impl->h_array) { 347f1c2287bSJeremy L Thompson CeedCallBackend(CeedHostSetValueStrided_Cuda(impl->h_array, start, step, length, val)); 348f1c2287bSJeremy L Thompson impl->d_array = NULL; 349f1c2287bSJeremy L Thompson } else { 350f1c2287bSJeremy L Thompson return CeedError(CeedVectorReturnCeed(vec), CEED_ERROR_BACKEND, "CeedVector must have valid data set"); 351f1c2287bSJeremy L Thompson } 352f1c2287bSJeremy L Thompson return CEED_ERROR_SUCCESS; 353f1c2287bSJeremy L Thompson } 354f1c2287bSJeremy L Thompson 355f1c2287bSJeremy L Thompson //------------------------------------------------------------------------------ 356ff1e7120SSebastian Grimberg // Vector Take Array 357ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 358ff1e7120SSebastian Grimberg static int CeedVectorTakeArray_Cuda(CeedVector vec, CeedMemType mem_type, CeedScalar **array) { 359ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 360ff1e7120SSebastian Grimberg 361ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 362ff1e7120SSebastian Grimberg // Sync array to requested mem_type 363ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(vec, mem_type)); 364ff1e7120SSebastian Grimberg // Update pointer 365ff1e7120SSebastian Grimberg switch (mem_type) { 366ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 367ff1e7120SSebastian Grimberg (*array) = impl->h_array_borrowed; 368ff1e7120SSebastian Grimberg impl->h_array_borrowed = NULL; 369ff1e7120SSebastian Grimberg impl->h_array = NULL; 370ff1e7120SSebastian Grimberg break; 371ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 372ff1e7120SSebastian Grimberg (*array) = impl->d_array_borrowed; 373ff1e7120SSebastian Grimberg impl->d_array_borrowed = NULL; 374ff1e7120SSebastian Grimberg impl->d_array = NULL; 375ff1e7120SSebastian Grimberg break; 376ff1e7120SSebastian Grimberg } 377ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 378ff1e7120SSebastian Grimberg } 379ff1e7120SSebastian Grimberg 380ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 381ff1e7120SSebastian Grimberg // Core logic for array syncronization for GetArray. 382ff1e7120SSebastian Grimberg // If a different memory type is most up to date, this will perform a copy 383ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 384ff1e7120SSebastian Grimberg static int CeedVectorGetArrayCore_Cuda(const CeedVector vec, const CeedMemType mem_type, CeedScalar **array) { 385ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 386ff1e7120SSebastian Grimberg 387ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 388ff1e7120SSebastian Grimberg // Sync array to requested mem_type 389ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(vec, mem_type)); 390ff1e7120SSebastian Grimberg // Update pointer 391ff1e7120SSebastian Grimberg switch (mem_type) { 392ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 393ff1e7120SSebastian Grimberg *array = impl->h_array; 394ff1e7120SSebastian Grimberg break; 395ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 396ff1e7120SSebastian Grimberg *array = impl->d_array; 397ff1e7120SSebastian Grimberg break; 398ff1e7120SSebastian Grimberg } 399ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 400ff1e7120SSebastian Grimberg } 401ff1e7120SSebastian Grimberg 402ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 403ff1e7120SSebastian Grimberg // Get read-only access to a vector via the specified mem_type 404ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 405ff1e7120SSebastian Grimberg static int CeedVectorGetArrayRead_Cuda(const CeedVector vec, const CeedMemType mem_type, const CeedScalar **array) { 406ff1e7120SSebastian Grimberg return CeedVectorGetArrayCore_Cuda(vec, mem_type, (CeedScalar **)array); 407ff1e7120SSebastian Grimberg } 408ff1e7120SSebastian Grimberg 409ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 410ff1e7120SSebastian Grimberg // Get read/write access to a vector via the specified mem_type 411ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 412ff1e7120SSebastian Grimberg static int CeedVectorGetArray_Cuda(const CeedVector vec, const CeedMemType mem_type, CeedScalar **array) { 413ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 414ca735530SJeremy L Thompson 415ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(vec, &impl)); 416ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetArrayCore_Cuda(vec, mem_type, array)); 417ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSetAllInvalid_Cuda(vec)); 418ff1e7120SSebastian Grimberg switch (mem_type) { 419ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 420ff1e7120SSebastian Grimberg impl->h_array = *array; 421ff1e7120SSebastian Grimberg break; 422ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 423ff1e7120SSebastian Grimberg impl->d_array = *array; 424ff1e7120SSebastian Grimberg break; 425ff1e7120SSebastian Grimberg } 426ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 427ff1e7120SSebastian Grimberg } 428ff1e7120SSebastian Grimberg 429ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 430ff1e7120SSebastian Grimberg // Get write access to a vector via the specified mem_type 431ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 432ff1e7120SSebastian Grimberg static int CeedVectorGetArrayWrite_Cuda(const CeedVector vec, const CeedMemType mem_type, CeedScalar **array) { 433ff1e7120SSebastian Grimberg bool has_array_of_type = true; 434ca735530SJeremy L Thompson CeedVector_Cuda *impl; 435ca735530SJeremy L Thompson 436ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 437ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorHasArrayOfType_Cuda(vec, mem_type, &has_array_of_type)); 438ff1e7120SSebastian Grimberg if (!has_array_of_type) { 439ff1e7120SSebastian Grimberg // Allocate if array is not yet allocated 440ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSetArray(vec, mem_type, CEED_COPY_VALUES, NULL)); 441ff1e7120SSebastian Grimberg } else { 442ff1e7120SSebastian Grimberg // Select dirty array 443ff1e7120SSebastian Grimberg switch (mem_type) { 444ff1e7120SSebastian Grimberg case CEED_MEM_HOST: 445ff1e7120SSebastian Grimberg if (impl->h_array_borrowed) impl->h_array = impl->h_array_borrowed; 446ff1e7120SSebastian Grimberg else impl->h_array = impl->h_array_owned; 447ff1e7120SSebastian Grimberg break; 448ff1e7120SSebastian Grimberg case CEED_MEM_DEVICE: 449ff1e7120SSebastian Grimberg if (impl->d_array_borrowed) impl->d_array = impl->d_array_borrowed; 450ff1e7120SSebastian Grimberg else impl->d_array = impl->d_array_owned; 451ff1e7120SSebastian Grimberg } 452ff1e7120SSebastian Grimberg } 453ff1e7120SSebastian Grimberg return CeedVectorGetArray_Cuda(vec, mem_type, array); 454ff1e7120SSebastian Grimberg } 455ff1e7120SSebastian Grimberg 456ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 457ff1e7120SSebastian Grimberg // Get the norm of a CeedVector 458ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 459ff1e7120SSebastian Grimberg static int CeedVectorNorm_Cuda(CeedVector vec, CeedNormType type, CeedScalar *norm) { 460ff1e7120SSebastian Grimberg Ceed ceed; 461ca735530SJeremy L Thompson CeedSize length; 462672b0f2aSSebastian Grimberg #if CUDA_VERSION < 12000 463672b0f2aSSebastian Grimberg CeedSize num_calls; 464672b0f2aSSebastian Grimberg #endif 465ca735530SJeremy L Thompson const CeedScalar *d_array; 466ca735530SJeremy L Thompson CeedVector_Cuda *impl; 467672b0f2aSSebastian Grimberg cublasHandle_t handle; 468ca735530SJeremy L Thompson 469ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetCeed(vec, &ceed)); 470ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 471ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetLength(vec, &length)); 472ff1e7120SSebastian Grimberg CeedCallBackend(CeedGetCublasHandle_Cuda(ceed, &handle)); 473ff1e7120SSebastian Grimberg 474f7c1b517Snbeams #if CUDA_VERSION < 12000 475f7c1b517Snbeams // With CUDA 12, we can use the 64-bit integer interface. Prior to that, 476f7c1b517Snbeams // we need to check if the vector is too long to handle with int32, 477b2165e7aSSebastian Grimberg // and if so, divide it into subsections for repeated cuBLAS calls. 478672b0f2aSSebastian Grimberg num_calls = length / INT_MAX; 479f7c1b517Snbeams if (length % INT_MAX > 0) num_calls += 1; 480f7c1b517Snbeams #endif 481f7c1b517Snbeams 482ff1e7120SSebastian Grimberg // Compute norm 483ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetArrayRead(vec, CEED_MEM_DEVICE, &d_array)); 484ff1e7120SSebastian Grimberg switch (type) { 485ff1e7120SSebastian Grimberg case CEED_NORM_1: { 486f6f49adbSnbeams *norm = 0.0; 487ff1e7120SSebastian Grimberg if (CEED_SCALAR_TYPE == CEED_SCALAR_FP32) { 488f7c1b517Snbeams #if CUDA_VERSION >= 12000 // We have CUDA 12, and can use 64-bit integers 489f7c1b517Snbeams CeedCallCublas(ceed, cublasSasum_64(handle, (int64_t)length, (float *)d_array, 1, (float *)norm)); 490f7c1b517Snbeams #else 491f7c1b517Snbeams float sub_norm = 0.0; 492f7c1b517Snbeams float *d_array_start; 493ca735530SJeremy L Thompson 494f7c1b517Snbeams for (CeedInt i = 0; i < num_calls; i++) { 495f7c1b517Snbeams d_array_start = (float *)d_array + (CeedSize)(i)*INT_MAX; 496f7c1b517Snbeams CeedSize remaining_length = length - (CeedSize)(i)*INT_MAX; 497f7c1b517Snbeams CeedInt sub_length = (i == num_calls - 1) ? (CeedInt)(remaining_length) : INT_MAX; 498ca735530SJeremy L Thompson 499f7c1b517Snbeams CeedCallCublas(ceed, cublasSasum(handle, (CeedInt)sub_length, (float *)d_array_start, 1, &sub_norm)); 500f7c1b517Snbeams *norm += sub_norm; 501f7c1b517Snbeams } 502f7c1b517Snbeams #endif 503ff1e7120SSebastian Grimberg } else { 504f7c1b517Snbeams #if CUDA_VERSION >= 12000 505f7c1b517Snbeams CeedCallCublas(ceed, cublasDasum_64(handle, (int64_t)length, (double *)d_array, 1, (double *)norm)); 506f7c1b517Snbeams #else 507f7c1b517Snbeams double sub_norm = 0.0; 508f7c1b517Snbeams double *d_array_start; 509ca735530SJeremy L Thompson 510f7c1b517Snbeams for (CeedInt i = 0; i < num_calls; i++) { 511f7c1b517Snbeams d_array_start = (double *)d_array + (CeedSize)(i)*INT_MAX; 512f7c1b517Snbeams CeedSize remaining_length = length - (CeedSize)(i)*INT_MAX; 513f7c1b517Snbeams CeedInt sub_length = (i == num_calls - 1) ? (CeedInt)(remaining_length) : INT_MAX; 514ca735530SJeremy L Thompson 515f7c1b517Snbeams CeedCallCublas(ceed, cublasDasum(handle, (CeedInt)sub_length, (double *)d_array_start, 1, &sub_norm)); 516f7c1b517Snbeams *norm += sub_norm; 517f7c1b517Snbeams } 518f7c1b517Snbeams #endif 519ff1e7120SSebastian Grimberg } 520ff1e7120SSebastian Grimberg break; 521ff1e7120SSebastian Grimberg } 522ff1e7120SSebastian Grimberg case CEED_NORM_2: { 523ff1e7120SSebastian Grimberg if (CEED_SCALAR_TYPE == CEED_SCALAR_FP32) { 524f7c1b517Snbeams #if CUDA_VERSION >= 12000 525f7c1b517Snbeams CeedCallCublas(ceed, cublasSnrm2_64(handle, (int64_t)length, (float *)d_array, 1, (float *)norm)); 526f7c1b517Snbeams #else 527f7c1b517Snbeams float sub_norm = 0.0, norm_sum = 0.0; 528f7c1b517Snbeams float *d_array_start; 529ca735530SJeremy L Thompson 530f7c1b517Snbeams for (CeedInt i = 0; i < num_calls; i++) { 531f7c1b517Snbeams d_array_start = (float *)d_array + (CeedSize)(i)*INT_MAX; 532f7c1b517Snbeams CeedSize remaining_length = length - (CeedSize)(i)*INT_MAX; 533f7c1b517Snbeams CeedInt sub_length = (i == num_calls - 1) ? (CeedInt)(remaining_length) : INT_MAX; 534ca735530SJeremy L Thompson 535f7c1b517Snbeams CeedCallCublas(ceed, cublasSnrm2(handle, (CeedInt)sub_length, (float *)d_array_start, 1, &sub_norm)); 536f7c1b517Snbeams norm_sum += sub_norm * sub_norm; 537f7c1b517Snbeams } 538f7c1b517Snbeams *norm = sqrt(norm_sum); 539f7c1b517Snbeams #endif 540ff1e7120SSebastian Grimberg } else { 541f7c1b517Snbeams #if CUDA_VERSION >= 12000 542f7c1b517Snbeams CeedCallCublas(ceed, cublasDnrm2_64(handle, (int64_t)length, (double *)d_array, 1, (double *)norm)); 543f7c1b517Snbeams #else 544f7c1b517Snbeams double sub_norm = 0.0, norm_sum = 0.0; 545f7c1b517Snbeams double *d_array_start; 546ca735530SJeremy L Thompson 547f7c1b517Snbeams for (CeedInt i = 0; i < num_calls; i++) { 548f7c1b517Snbeams d_array_start = (double *)d_array + (CeedSize)(i)*INT_MAX; 549f7c1b517Snbeams CeedSize remaining_length = length - (CeedSize)(i)*INT_MAX; 550f7c1b517Snbeams CeedInt sub_length = (i == num_calls - 1) ? (CeedInt)(remaining_length) : INT_MAX; 551ca735530SJeremy L Thompson 552f7c1b517Snbeams CeedCallCublas(ceed, cublasDnrm2(handle, (CeedInt)sub_length, (double *)d_array_start, 1, &sub_norm)); 553f7c1b517Snbeams norm_sum += sub_norm * sub_norm; 554f7c1b517Snbeams } 555f7c1b517Snbeams *norm = sqrt(norm_sum); 556f7c1b517Snbeams #endif 557ff1e7120SSebastian Grimberg } 558ff1e7120SSebastian Grimberg break; 559ff1e7120SSebastian Grimberg } 560ff1e7120SSebastian Grimberg case CEED_NORM_MAX: { 561ff1e7120SSebastian Grimberg if (CEED_SCALAR_TYPE == CEED_SCALAR_FP32) { 562f7c1b517Snbeams #if CUDA_VERSION >= 12000 563ca735530SJeremy L Thompson int64_t index; 564ca735530SJeremy L Thompson CeedScalar norm_no_abs; 565ca735530SJeremy L Thompson 566ca735530SJeremy L Thompson CeedCallCublas(ceed, cublasIsamax_64(handle, (int64_t)length, (float *)d_array, 1, &index)); 567ca735530SJeremy L Thompson CeedCallCuda(ceed, cudaMemcpy(&norm_no_abs, impl->d_array + index - 1, sizeof(CeedScalar), cudaMemcpyDeviceToHost)); 568ca735530SJeremy L Thompson *norm = fabs(norm_no_abs); 569f7c1b517Snbeams #else 570ca735530SJeremy L Thompson CeedInt index; 571f7c1b517Snbeams float sub_max = 0.0, current_max = 0.0; 572f7c1b517Snbeams float *d_array_start; 573ca735530SJeremy L Thompson 574f7c1b517Snbeams for (CeedInt i = 0; i < num_calls; i++) { 575f7c1b517Snbeams d_array_start = (float *)d_array + (CeedSize)(i)*INT_MAX; 576f7c1b517Snbeams CeedSize remaining_length = length - (CeedSize)(i)*INT_MAX; 577f7c1b517Snbeams CeedInt sub_length = (i == num_calls - 1) ? (CeedInt)(remaining_length) : INT_MAX; 578ca735530SJeremy L Thompson 579ca735530SJeremy L Thompson CeedCallCublas(ceed, cublasIsamax(handle, (CeedInt)sub_length, (float *)d_array_start, 1, &index)); 580ca735530SJeremy L Thompson CeedCallCuda(ceed, cudaMemcpy(&sub_max, d_array_start + index - 1, sizeof(CeedScalar), cudaMemcpyDeviceToHost)); 581f7c1b517Snbeams if (fabs(sub_max) > current_max) current_max = fabs(sub_max); 582f7c1b517Snbeams } 583f7c1b517Snbeams *norm = current_max; 584f7c1b517Snbeams #endif 585f7c1b517Snbeams } else { 586f7c1b517Snbeams #if CUDA_VERSION >= 12000 587ca735530SJeremy L Thompson int64_t index; 588ca735530SJeremy L Thompson CeedScalar norm_no_abs; 589ca735530SJeremy L Thompson 590ca735530SJeremy L Thompson CeedCallCublas(ceed, cublasIdamax_64(handle, (int64_t)length, (double *)d_array, 1, &index)); 591ca735530SJeremy L Thompson CeedCallCuda(ceed, cudaMemcpy(&norm_no_abs, impl->d_array + index - 1, sizeof(CeedScalar), cudaMemcpyDeviceToHost)); 592ca735530SJeremy L Thompson *norm = fabs(norm_no_abs); 593f7c1b517Snbeams #else 594ca735530SJeremy L Thompson CeedInt index; 595f7c1b517Snbeams double sub_max = 0.0, current_max = 0.0; 596f7c1b517Snbeams double *d_array_start; 597ca735530SJeremy L Thompson 598f7c1b517Snbeams for (CeedInt i = 0; i < num_calls; i++) { 599f7c1b517Snbeams d_array_start = (double *)d_array + (CeedSize)(i)*INT_MAX; 600f7c1b517Snbeams CeedSize remaining_length = length - (CeedSize)(i)*INT_MAX; 601f7c1b517Snbeams CeedInt sub_length = (i == num_calls - 1) ? (CeedInt)(remaining_length) : INT_MAX; 602ca735530SJeremy L Thompson 603ca735530SJeremy L Thompson CeedCallCublas(ceed, cublasIdamax(handle, (CeedInt)sub_length, (double *)d_array_start, 1, &index)); 604ca735530SJeremy L Thompson CeedCallCuda(ceed, cudaMemcpy(&sub_max, d_array_start + index - 1, sizeof(CeedScalar), cudaMemcpyDeviceToHost)); 605f7c1b517Snbeams if (fabs(sub_max) > current_max) current_max = fabs(sub_max); 606f7c1b517Snbeams } 607f7c1b517Snbeams *norm = current_max; 608f7c1b517Snbeams #endif 609f7c1b517Snbeams } 610ff1e7120SSebastian Grimberg break; 611ff1e7120SSebastian Grimberg } 612ff1e7120SSebastian Grimberg } 613ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorRestoreArrayRead(vec, &d_array)); 6149bc66399SJeremy L Thompson CeedCallBackend(CeedDestroy(&ceed)); 615ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 616ff1e7120SSebastian Grimberg } 617ff1e7120SSebastian Grimberg 618ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 619ff1e7120SSebastian Grimberg // Take reciprocal of a vector on host 620ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 621f7c1b517Snbeams static int CeedHostReciprocal_Cuda(CeedScalar *h_array, CeedSize length) { 622f7c1b517Snbeams for (CeedSize i = 0; i < length; i++) { 623ff1e7120SSebastian Grimberg if (fabs(h_array[i]) > CEED_EPSILON) h_array[i] = 1. / h_array[i]; 624ff1e7120SSebastian Grimberg } 625ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 626ff1e7120SSebastian Grimberg } 627ff1e7120SSebastian Grimberg 628ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 629ff1e7120SSebastian Grimberg // Take reciprocal of a vector on device (impl in .cu file) 630ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 631f7c1b517Snbeams int CeedDeviceReciprocal_Cuda(CeedScalar *d_array, CeedSize length); 632ff1e7120SSebastian Grimberg 633ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 634ff1e7120SSebastian Grimberg // Take reciprocal of a vector 635ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 636ff1e7120SSebastian Grimberg static int CeedVectorReciprocal_Cuda(CeedVector vec) { 637ff1e7120SSebastian Grimberg CeedSize length; 638ca735530SJeremy L Thompson CeedVector_Cuda *impl; 639ff1e7120SSebastian Grimberg 640ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 641ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetLength(vec, &length)); 642ff1e7120SSebastian Grimberg // Set value for synced device/host array 643ff1e7120SSebastian Grimberg if (impl->d_array) CeedCallBackend(CeedDeviceReciprocal_Cuda(impl->d_array, length)); 644ff1e7120SSebastian Grimberg if (impl->h_array) CeedCallBackend(CeedHostReciprocal_Cuda(impl->h_array, length)); 645ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 646ff1e7120SSebastian Grimberg } 647ff1e7120SSebastian Grimberg 648ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 649ff1e7120SSebastian Grimberg // Compute x = alpha x on the host 650ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 651f7c1b517Snbeams static int CeedHostScale_Cuda(CeedScalar *x_array, CeedScalar alpha, CeedSize length) { 652f7c1b517Snbeams for (CeedSize i = 0; i < length; i++) x_array[i] *= alpha; 653ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 654ff1e7120SSebastian Grimberg } 655ff1e7120SSebastian Grimberg 656ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 657ff1e7120SSebastian Grimberg // Compute x = alpha x on device (impl in .cu file) 658ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 659f7c1b517Snbeams int CeedDeviceScale_Cuda(CeedScalar *x_array, CeedScalar alpha, CeedSize length); 660ff1e7120SSebastian Grimberg 661ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 662ff1e7120SSebastian Grimberg // Compute x = alpha x 663ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 664ff1e7120SSebastian Grimberg static int CeedVectorScale_Cuda(CeedVector x, CeedScalar alpha) { 665ff1e7120SSebastian Grimberg CeedSize length; 666ca735530SJeremy L Thompson CeedVector_Cuda *x_impl; 667ff1e7120SSebastian Grimberg 668ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(x, &x_impl)); 669ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetLength(x, &length)); 670ff1e7120SSebastian Grimberg // Set value for synced device/host array 671ff1e7120SSebastian Grimberg if (x_impl->d_array) CeedCallBackend(CeedDeviceScale_Cuda(x_impl->d_array, alpha, length)); 672ff1e7120SSebastian Grimberg if (x_impl->h_array) CeedCallBackend(CeedHostScale_Cuda(x_impl->h_array, alpha, length)); 673ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 674ff1e7120SSebastian Grimberg } 675ff1e7120SSebastian Grimberg 676ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 677ff1e7120SSebastian Grimberg // Compute y = alpha x + y on the host 678ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 679f7c1b517Snbeams static int CeedHostAXPY_Cuda(CeedScalar *y_array, CeedScalar alpha, CeedScalar *x_array, CeedSize length) { 680f7c1b517Snbeams for (CeedSize i = 0; i < length; i++) y_array[i] += alpha * x_array[i]; 681ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 682ff1e7120SSebastian Grimberg } 683ff1e7120SSebastian Grimberg 684ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 685ff1e7120SSebastian Grimberg // Compute y = alpha x + y on device (impl in .cu file) 686ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 687f7c1b517Snbeams int CeedDeviceAXPY_Cuda(CeedScalar *y_array, CeedScalar alpha, CeedScalar *x_array, CeedSize length); 688ff1e7120SSebastian Grimberg 689ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 690ff1e7120SSebastian Grimberg // Compute y = alpha x + y 691ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 692ff1e7120SSebastian Grimberg static int CeedVectorAXPY_Cuda(CeedVector y, CeedScalar alpha, CeedVector x) { 693ca735530SJeremy L Thompson CeedSize length; 694ff1e7120SSebastian Grimberg CeedVector_Cuda *y_impl, *x_impl; 695ca735530SJeremy L Thompson 696ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(y, &y_impl)); 697ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(x, &x_impl)); 698ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(y, &length)); 699ff1e7120SSebastian Grimberg // Set value for synced device/host array 700ff1e7120SSebastian Grimberg if (y_impl->d_array) { 701ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(x, CEED_MEM_DEVICE)); 702ff1e7120SSebastian Grimberg CeedCallBackend(CeedDeviceAXPY_Cuda(y_impl->d_array, alpha, x_impl->d_array, length)); 703ff1e7120SSebastian Grimberg } 704ff1e7120SSebastian Grimberg if (y_impl->h_array) { 705ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(x, CEED_MEM_HOST)); 706ff1e7120SSebastian Grimberg CeedCallBackend(CeedHostAXPY_Cuda(y_impl->h_array, alpha, x_impl->h_array, length)); 707ff1e7120SSebastian Grimberg } 708ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 709ff1e7120SSebastian Grimberg } 710ff1e7120SSebastian Grimberg 711ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 712ff1e7120SSebastian Grimberg // Compute y = alpha x + beta y on the host 713ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 714f7c1b517Snbeams static int CeedHostAXPBY_Cuda(CeedScalar *y_array, CeedScalar alpha, CeedScalar beta, CeedScalar *x_array, CeedSize length) { 715aa67b842SZach Atkins for (CeedSize i = 0; i < length; i++) y_array[i] = alpha * x_array[i] + beta * y_array[i]; 716ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 717ff1e7120SSebastian Grimberg } 718ff1e7120SSebastian Grimberg 719ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 720ff1e7120SSebastian Grimberg // Compute y = alpha x + beta y on device (impl in .cu file) 721ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 722f7c1b517Snbeams int CeedDeviceAXPBY_Cuda(CeedScalar *y_array, CeedScalar alpha, CeedScalar beta, CeedScalar *x_array, CeedSize length); 723ff1e7120SSebastian Grimberg 724ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 725ff1e7120SSebastian Grimberg // Compute y = alpha x + beta y 726ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 727ff1e7120SSebastian Grimberg static int CeedVectorAXPBY_Cuda(CeedVector y, CeedScalar alpha, CeedScalar beta, CeedVector x) { 728ca735530SJeremy L Thompson CeedSize length; 729ff1e7120SSebastian Grimberg CeedVector_Cuda *y_impl, *x_impl; 730ca735530SJeremy L Thompson 731ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(y, &y_impl)); 732ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(x, &x_impl)); 733ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(y, &length)); 734ff1e7120SSebastian Grimberg // Set value for synced device/host array 735ff1e7120SSebastian Grimberg if (y_impl->d_array) { 736ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(x, CEED_MEM_DEVICE)); 737ff1e7120SSebastian Grimberg CeedCallBackend(CeedDeviceAXPBY_Cuda(y_impl->d_array, alpha, beta, x_impl->d_array, length)); 738ff1e7120SSebastian Grimberg } 739ff1e7120SSebastian Grimberg if (y_impl->h_array) { 740ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(x, CEED_MEM_HOST)); 741ff1e7120SSebastian Grimberg CeedCallBackend(CeedHostAXPBY_Cuda(y_impl->h_array, alpha, beta, x_impl->h_array, length)); 742ff1e7120SSebastian Grimberg } 743ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 744ff1e7120SSebastian Grimberg } 745ff1e7120SSebastian Grimberg 746ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 747ff1e7120SSebastian Grimberg // Compute the pointwise multiplication w = x .* y on the host 748ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 749f7c1b517Snbeams static int CeedHostPointwiseMult_Cuda(CeedScalar *w_array, CeedScalar *x_array, CeedScalar *y_array, CeedSize length) { 750f7c1b517Snbeams for (CeedSize i = 0; i < length; i++) w_array[i] = x_array[i] * y_array[i]; 751ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 752ff1e7120SSebastian Grimberg } 753ff1e7120SSebastian Grimberg 754ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 755ff1e7120SSebastian Grimberg // Compute the pointwise multiplication w = x .* y on device (impl in .cu file) 756ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 757f7c1b517Snbeams int CeedDevicePointwiseMult_Cuda(CeedScalar *w_array, CeedScalar *x_array, CeedScalar *y_array, CeedSize length); 758ff1e7120SSebastian Grimberg 759ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 760ff1e7120SSebastian Grimberg // Compute the pointwise multiplication w = x .* y 761ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 762ff1e7120SSebastian Grimberg static int CeedVectorPointwiseMult_Cuda(CeedVector w, CeedVector x, CeedVector y) { 763ca735530SJeremy L Thompson CeedSize length; 764ff1e7120SSebastian Grimberg CeedVector_Cuda *w_impl, *x_impl, *y_impl; 765ca735530SJeremy L Thompson 766ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(w, &w_impl)); 767ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(x, &x_impl)); 768ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetData(y, &y_impl)); 769ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorGetLength(w, &length)); 770ff1e7120SSebastian Grimberg // Set value for synced device/host array 771ff1e7120SSebastian Grimberg if (!w_impl->d_array && !w_impl->h_array) { 772ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSetValue(w, 0.0)); 773ff1e7120SSebastian Grimberg } 774ff1e7120SSebastian Grimberg if (w_impl->d_array) { 775ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(x, CEED_MEM_DEVICE)); 776ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(y, CEED_MEM_DEVICE)); 777ff1e7120SSebastian Grimberg CeedCallBackend(CeedDevicePointwiseMult_Cuda(w_impl->d_array, x_impl->d_array, y_impl->d_array, length)); 778ff1e7120SSebastian Grimberg } 779ff1e7120SSebastian Grimberg if (w_impl->h_array) { 780ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(x, CEED_MEM_HOST)); 781ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSyncArray(y, CEED_MEM_HOST)); 782ff1e7120SSebastian Grimberg CeedCallBackend(CeedHostPointwiseMult_Cuda(w_impl->h_array, x_impl->h_array, y_impl->h_array, length)); 783ff1e7120SSebastian Grimberg } 784ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 785ff1e7120SSebastian Grimberg } 786ff1e7120SSebastian Grimberg 787ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 788ff1e7120SSebastian Grimberg // Destroy the vector 789ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 790ff1e7120SSebastian Grimberg static int CeedVectorDestroy_Cuda(const CeedVector vec) { 791ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 792ff1e7120SSebastian Grimberg 793ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetData(vec, &impl)); 7946e536b99SJeremy L Thompson CeedCallCuda(CeedVectorReturnCeed(vec), cudaFree(impl->d_array_owned)); 795ff1e7120SSebastian Grimberg CeedCallBackend(CeedFree(&impl->h_array_owned)); 796ff1e7120SSebastian Grimberg CeedCallBackend(CeedFree(&impl)); 797ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 798ff1e7120SSebastian Grimberg } 799ff1e7120SSebastian Grimberg 800ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 801ff1e7120SSebastian Grimberg // Create a vector of the specified length (does not allocate memory) 802ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 803ff1e7120SSebastian Grimberg int CeedVectorCreate_Cuda(CeedSize n, CeedVector vec) { 804ff1e7120SSebastian Grimberg CeedVector_Cuda *impl; 805ff1e7120SSebastian Grimberg Ceed ceed; 806ff1e7120SSebastian Grimberg 807ca735530SJeremy L Thompson CeedCallBackend(CeedVectorGetCeed(vec, &ceed)); 808ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "HasValidArray", CeedVectorHasValidArray_Cuda)); 809ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "HasBorrowedArrayOfType", CeedVectorHasBorrowedArrayOfType_Cuda)); 810ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "SetArray", CeedVectorSetArray_Cuda)); 811ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "TakeArray", CeedVectorTakeArray_Cuda)); 8123e961e14SJeremy L Thompson CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "CopyStrided", CeedVectorCopyStrided_Cuda)); 8133e961e14SJeremy L Thompson CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "SetValue", CeedVectorSetValue_Cuda)); 8143e961e14SJeremy L Thompson CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "SetValueStrided", CeedVectorSetValueStrided_Cuda)); 815ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "SyncArray", CeedVectorSyncArray_Cuda)); 816ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "GetArray", CeedVectorGetArray_Cuda)); 817ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "GetArrayRead", CeedVectorGetArrayRead_Cuda)); 818ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "GetArrayWrite", CeedVectorGetArrayWrite_Cuda)); 819ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "Norm", CeedVectorNorm_Cuda)); 820ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "Reciprocal", CeedVectorReciprocal_Cuda)); 8213e961e14SJeremy L Thompson CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "Scale", CeedVectorScale_Cuda)); 8223e961e14SJeremy L Thompson CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "AXPY", CeedVectorAXPY_Cuda)); 8233e961e14SJeremy L Thompson CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "AXPBY", CeedVectorAXPBY_Cuda)); 824ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "PointwiseMult", CeedVectorPointwiseMult_Cuda)); 825ff1e7120SSebastian Grimberg CeedCallBackend(CeedSetBackendFunction(ceed, "Vector", vec, "Destroy", CeedVectorDestroy_Cuda)); 8269bc66399SJeremy L Thompson CeedCallBackend(CeedDestroy(&ceed)); 827ff1e7120SSebastian Grimberg CeedCallBackend(CeedCalloc(1, &impl)); 828ff1e7120SSebastian Grimberg CeedCallBackend(CeedVectorSetData(vec, impl)); 829ff1e7120SSebastian Grimberg return CEED_ERROR_SUCCESS; 830ff1e7120SSebastian Grimberg } 831ff1e7120SSebastian Grimberg 832ff1e7120SSebastian Grimberg //------------------------------------------------------------------------------ 833