1bd882c8aSJames Wright // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors. 2bd882c8aSJames Wright // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3bd882c8aSJames Wright // 4bd882c8aSJames Wright // SPDX-License-Identifier: BSD-2-Clause 5bd882c8aSJames Wright // 6bd882c8aSJames Wright // This file is part of CEED: http://github.com/ceed 7bd882c8aSJames Wright 8bd882c8aSJames Wright #include <ceed/backend.h> 9bd882c8aSJames Wright #include <ceed/ceed.h> 10bd882c8aSJames Wright #include <ceed/jit-tools.h> 11bd882c8aSJames Wright 12bd882c8aSJames Wright #include <sycl/sycl.hpp> 13bd882c8aSJames Wright #include <vector> 14bd882c8aSJames Wright 15bd882c8aSJames Wright #include "../sycl/ceed-sycl-compile.hpp" 16bd882c8aSJames Wright #include "ceed-sycl-ref.hpp" 17bd882c8aSJames Wright 18bd882c8aSJames Wright template <int> 19bd882c8aSJames Wright class CeedBasisSyclInterp; 20bd882c8aSJames Wright template <int> 21bd882c8aSJames Wright class CeedBasisSyclGrad; 22bd882c8aSJames Wright class CeedBasisSyclWeight; 23bd882c8aSJames Wright 24bd882c8aSJames Wright class CeedBasisSyclInterpNT; 25bd882c8aSJames Wright class CeedBasisSyclGradNT; 26bd882c8aSJames Wright class CeedBasisSyclWeightNT; 27bd882c8aSJames Wright 28bd882c8aSJames Wright using SpecID = sycl::specialization_id<CeedInt>; 29bd882c8aSJames Wright 30bd882c8aSJames Wright static constexpr SpecID BASIS_DIM_ID; 31bd882c8aSJames Wright static constexpr SpecID BASIS_NUM_COMP_ID; 32bd882c8aSJames Wright static constexpr SpecID BASIS_P_1D_ID; 33bd882c8aSJames Wright static constexpr SpecID BASIS_Q_1D_ID; 34bd882c8aSJames Wright 35bd882c8aSJames Wright //------------------------------------------------------------------------------ 36bd882c8aSJames Wright // Interpolation kernel - tensor 37bd882c8aSJames Wright //------------------------------------------------------------------------------ 38bd882c8aSJames Wright template <int transpose> 39bd882c8aSJames Wright static int CeedBasisApplyInterp_Sycl(sycl::queue &sycl_queue, const SyclModule_t &sycl_module, CeedInt num_elem, const CeedBasis_Sycl *impl, 40bd882c8aSJames Wright const CeedScalar *u, CeedScalar *v) { 41bd882c8aSJames Wright const CeedInt buf_len = impl->buf_len; 42bd882c8aSJames Wright const CeedInt op_len = impl->op_len; 43bd882c8aSJames Wright const CeedScalar *interp_1d = impl->d_interp_1d; 44bd882c8aSJames Wright 45bd882c8aSJames Wright const sycl::device &sycl_device = sycl_queue.get_device(); 46bd882c8aSJames Wright const CeedInt max_work_group_size = 32; 47bd882c8aSJames Wright const CeedInt work_group_size = CeedIntMin(impl->num_qpts, max_work_group_size); 48bd882c8aSJames Wright sycl::range<1> local_range(work_group_size); 49bd882c8aSJames Wright sycl::range<1> global_range(num_elem * work_group_size); 50bd882c8aSJames Wright sycl::nd_range<1> kernel_range(global_range, local_range); 51bd882c8aSJames Wright 52bd882c8aSJames Wright // Order queue 53bd882c8aSJames Wright sycl::event e = sycl_queue.ext_oneapi_submit_barrier(); 54bd882c8aSJames Wright sycl_queue.submit([&](sycl::handler &cgh) { 55bd882c8aSJames Wright cgh.depends_on({e}); 56bd882c8aSJames Wright cgh.use_kernel_bundle(sycl_module); 57bd882c8aSJames Wright 58bd882c8aSJames Wright sycl::local_accessor<CeedScalar> s_mem(op_len + 2 * buf_len, cgh); 59bd882c8aSJames Wright 60bd882c8aSJames Wright cgh.parallel_for<CeedBasisSyclInterp<transpose>>(kernel_range, [=](sycl::nd_item<1> work_item, sycl::kernel_handler kh) { 61bd882c8aSJames Wright //--------------------------------------------------------------> 62bd882c8aSJames Wright // Retrieve spec constant values 63bd882c8aSJames Wright const CeedInt dim = kh.get_specialization_constant<BASIS_DIM_ID>(); 64bd882c8aSJames Wright const CeedInt num_comp = kh.get_specialization_constant<BASIS_NUM_COMP_ID>(); 65bd882c8aSJames Wright const CeedInt P_1d = kh.get_specialization_constant<BASIS_P_1D_ID>(); 66bd882c8aSJames Wright const CeedInt Q_1d = kh.get_specialization_constant<BASIS_Q_1D_ID>(); 67bd882c8aSJames Wright //--------------------------------------------------------------> 68bd882c8aSJames Wright const CeedInt num_nodes = CeedIntPow(P_1d, dim); 69bd882c8aSJames Wright const CeedInt num_qpts = CeedIntPow(Q_1d, dim); 70bd882c8aSJames Wright const CeedInt P = transpose ? Q_1d : P_1d; 71bd882c8aSJames Wright const CeedInt Q = transpose ? P_1d : Q_1d; 72bd882c8aSJames Wright const CeedInt stride_0 = transpose ? 1 : P_1d; 73bd882c8aSJames Wright const CeedInt stride_1 = transpose ? P_1d : 1; 74bd882c8aSJames Wright const CeedInt u_stride = transpose ? num_qpts : num_nodes; 75bd882c8aSJames Wright const CeedInt v_stride = transpose ? num_nodes : num_qpts; 76bd882c8aSJames Wright const CeedInt u_comp_stride = num_elem * u_stride; 77bd882c8aSJames Wright const CeedInt v_comp_stride = num_elem * v_stride; 78bd882c8aSJames Wright const CeedInt u_size = u_stride; 79bd882c8aSJames Wright 80bd882c8aSJames Wright sycl::group work_group = work_item.get_group(); 81bd882c8aSJames Wright const CeedInt i = work_item.get_local_linear_id(); 82bd882c8aSJames Wright const CeedInt group_size = work_group.get_local_linear_range(); 83bd882c8aSJames Wright const CeedInt elem = work_group.get_group_linear_id(); 84bd882c8aSJames Wright 85bd882c8aSJames Wright CeedScalar *s_interp_1d = s_mem.get_pointer(); 86bd882c8aSJames Wright CeedScalar *s_buffer_1 = s_interp_1d + Q * P; 87bd882c8aSJames Wright CeedScalar *s_buffer_2 = s_buffer_1 + buf_len; 88bd882c8aSJames Wright 89bd882c8aSJames Wright for (CeedInt k = i; k < P * Q; k += group_size) { 90bd882c8aSJames Wright s_interp_1d[k] = interp_1d[k]; 91bd882c8aSJames Wright } 92bd882c8aSJames Wright 93bd882c8aSJames Wright // Apply basis element by element 94bd882c8aSJames Wright for (CeedInt comp = 0; comp < num_comp; comp++) { 95bd882c8aSJames Wright const CeedScalar *cur_u = u + elem * u_stride + comp * u_comp_stride; 96bd882c8aSJames Wright CeedScalar *cur_v = v + elem * v_stride + comp * v_comp_stride; 97bd882c8aSJames Wright 98bd882c8aSJames Wright for (CeedInt k = i; k < u_size; k += group_size) { 99bd882c8aSJames Wright s_buffer_1[k] = cur_u[k]; 100bd882c8aSJames Wright } 101bd882c8aSJames Wright 102bd882c8aSJames Wright CeedInt pre = u_size; 103bd882c8aSJames Wright CeedInt post = 1; 104bd882c8aSJames Wright 105bd882c8aSJames Wright for (CeedInt d = 0; d < dim; d++) { 106bd882c8aSJames Wright // Use older version of sycl workgroup barrier for performance reasons 107bd882c8aSJames Wright // Can be updated in future to align with SYCL2020 spec if performance bottleneck is removed 108bd882c8aSJames Wright // sycl::group_barrier(work_group); 109bd882c8aSJames Wright work_item.barrier(sycl::access::fence_space::local_space); 110bd882c8aSJames Wright 111bd882c8aSJames Wright pre /= P; 112bd882c8aSJames Wright const CeedScalar *in = d % 2 ? s_buffer_2 : s_buffer_1; 113bd882c8aSJames Wright CeedScalar *out = d == dim - 1 ? cur_v : (d % 2 ? s_buffer_1 : s_buffer_2); 114bd882c8aSJames Wright 115bd882c8aSJames Wright // Contract along middle index 116bd882c8aSJames Wright const CeedInt writeLen = pre * post * Q; 117bd882c8aSJames Wright for (CeedInt k = i; k < writeLen; k += group_size) { 118bd882c8aSJames Wright const CeedInt c = k % post; 119bd882c8aSJames Wright const CeedInt j = (k / post) % Q; 120bd882c8aSJames Wright const CeedInt a = k / (post * Q); 121bd882c8aSJames Wright 122bd882c8aSJames Wright CeedScalar vk = 0; 123bd882c8aSJames Wright for (CeedInt b = 0; b < P; b++) { 124bd882c8aSJames Wright vk += s_interp_1d[j * stride_0 + b * stride_1] * in[(a * P + b) * post + c]; 125bd882c8aSJames Wright } 126bd882c8aSJames Wright out[k] = vk; 127bd882c8aSJames Wright } 128bd882c8aSJames Wright post *= Q; 129bd882c8aSJames Wright } 130bd882c8aSJames Wright } 131bd882c8aSJames Wright }); 132bd882c8aSJames Wright }); 133bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 134bd882c8aSJames Wright } 135bd882c8aSJames Wright 136bd882c8aSJames Wright //------------------------------------------------------------------------------ 137bd882c8aSJames Wright // Gradient kernel - tensor 138bd882c8aSJames Wright //------------------------------------------------------------------------------ 139bd882c8aSJames Wright template <int transpose> 140bd882c8aSJames Wright static int CeedBasisApplyGrad_Sycl(sycl::queue &sycl_queue, const SyclModule_t &sycl_module, CeedInt num_elem, const CeedBasis_Sycl *impl, 141bd882c8aSJames Wright const CeedScalar *u, CeedScalar *v) { 142bd882c8aSJames Wright const CeedInt buf_len = impl->buf_len; 143bd882c8aSJames Wright const CeedInt op_len = impl->op_len; 144bd882c8aSJames Wright const CeedScalar *interp_1d = impl->d_interp_1d; 145bd882c8aSJames Wright const CeedScalar *grad_1d = impl->d_grad_1d; 146bd882c8aSJames Wright 147bd882c8aSJames Wright const sycl::device &sycl_device = sycl_queue.get_device(); 148bd882c8aSJames Wright const CeedInt work_group_size = 32; 149bd882c8aSJames Wright sycl::range<1> local_range(work_group_size); 150bd882c8aSJames Wright sycl::range<1> global_range(num_elem * work_group_size); 151bd882c8aSJames Wright sycl::nd_range<1> kernel_range(global_range, local_range); 152bd882c8aSJames Wright 153bd882c8aSJames Wright // Order queue 154bd882c8aSJames Wright sycl::event e = sycl_queue.ext_oneapi_submit_barrier(); 155bd882c8aSJames Wright sycl_queue.submit([&](sycl::handler &cgh) { 156bd882c8aSJames Wright cgh.depends_on({e}); 157bd882c8aSJames Wright cgh.use_kernel_bundle(sycl_module); 158bd882c8aSJames Wright 159bd882c8aSJames Wright sycl::local_accessor<CeedScalar> s_mem(2 * (op_len + buf_len), cgh); 160bd882c8aSJames Wright 161bd882c8aSJames Wright cgh.parallel_for<CeedBasisSyclGrad<transpose>>(kernel_range, [=](sycl::nd_item<1> work_item, sycl::kernel_handler kh) { 162bd882c8aSJames Wright //--------------------------------------------------------------> 163bd882c8aSJames Wright // Retrieve spec constant values 164bd882c8aSJames Wright const CeedInt dim = kh.get_specialization_constant<BASIS_DIM_ID>(); 165bd882c8aSJames Wright const CeedInt num_comp = kh.get_specialization_constant<BASIS_NUM_COMP_ID>(); 166bd882c8aSJames Wright const CeedInt P_1d = kh.get_specialization_constant<BASIS_P_1D_ID>(); 167bd882c8aSJames Wright const CeedInt Q_1d = kh.get_specialization_constant<BASIS_Q_1D_ID>(); 168bd882c8aSJames Wright //--------------------------------------------------------------> 169bd882c8aSJames Wright const CeedInt num_nodes = CeedIntPow(P_1d, dim); 170bd882c8aSJames Wright const CeedInt num_qpts = CeedIntPow(Q_1d, dim); 171bd882c8aSJames Wright const CeedInt P = transpose ? Q_1d : P_1d; 172bd882c8aSJames Wright const CeedInt Q = transpose ? P_1d : Q_1d; 173bd882c8aSJames Wright const CeedInt stride_0 = transpose ? 1 : P_1d; 174bd882c8aSJames Wright const CeedInt stride_1 = transpose ? P_1d : 1; 175bd882c8aSJames Wright const CeedInt u_stride = transpose ? num_qpts : num_nodes; 176bd882c8aSJames Wright const CeedInt v_stride = transpose ? num_nodes : num_qpts; 177bd882c8aSJames Wright const CeedInt u_comp_stride = num_elem * u_stride; 178bd882c8aSJames Wright const CeedInt v_comp_stride = num_elem * v_stride; 179bd882c8aSJames Wright const CeedInt u_dim_stride = transpose ? num_elem * num_qpts * num_comp : 0; 180bd882c8aSJames Wright const CeedInt v_dim_stride = transpose ? 0 : num_elem * num_qpts * num_comp; 181bd882c8aSJames Wright 182bd882c8aSJames Wright sycl::group work_group = work_item.get_group(); 183bd882c8aSJames Wright const CeedInt i = work_item.get_local_linear_id(); 184bd882c8aSJames Wright const CeedInt group_size = work_group.get_local_linear_range(); 185bd882c8aSJames Wright const CeedInt elem = work_group.get_group_linear_id(); 186bd882c8aSJames Wright 187bd882c8aSJames Wright CeedScalar *s_interp_1d = s_mem.get_pointer(); 188bd882c8aSJames Wright CeedScalar *s_grad_1d = s_interp_1d + P * Q; 189bd882c8aSJames Wright CeedScalar *s_buffer_1 = s_grad_1d + P * Q; 190bd882c8aSJames Wright CeedScalar *s_buffer_2 = s_buffer_1 + buf_len; 191bd882c8aSJames Wright 192bd882c8aSJames Wright for (CeedInt k = i; k < P * Q; k += group_size) { 193bd882c8aSJames Wright s_interp_1d[k] = interp_1d[k]; 194bd882c8aSJames Wright s_grad_1d[k] = grad_1d[k]; 195bd882c8aSJames Wright } 196bd882c8aSJames Wright 197bd882c8aSJames Wright // Apply basis element by element 198bd882c8aSJames Wright for (CeedInt comp = 0; comp < num_comp; comp++) { 199bd882c8aSJames Wright for (CeedInt dim_1 = 0; dim_1 < dim; dim_1++) { 200bd882c8aSJames Wright CeedInt pre = transpose ? num_qpts : num_nodes; 201bd882c8aSJames Wright CeedInt post = 1; 202bd882c8aSJames Wright const CeedScalar *cur_u = u + elem * u_stride + dim_1 * u_dim_stride + comp * u_comp_stride; 203bd882c8aSJames Wright CeedScalar *cur_v = v + elem * v_stride + dim_1 * v_dim_stride + comp * v_comp_stride; 204bd882c8aSJames Wright 205bd882c8aSJames Wright for (CeedInt dim_2 = 0; dim_2 < dim; dim_2++) { 206bd882c8aSJames Wright // Use older version of sycl workgroup barrier for performance reasons 207bd882c8aSJames Wright // Can be updated in future to align with SYCL2020 spec if performance bottleneck is removed 208bd882c8aSJames Wright // sycl::group_barrier(work_group); 209bd882c8aSJames Wright work_item.barrier(sycl::access::fence_space::local_space); 210bd882c8aSJames Wright 211bd882c8aSJames Wright pre /= P; 212bd882c8aSJames Wright const CeedScalar *op = dim_1 == dim_2 ? s_grad_1d : s_interp_1d; 213bd882c8aSJames Wright const CeedScalar *in = (dim_2 == 0 ? cur_u : (dim_2 % 2 ? s_buffer_2 : s_buffer_1)); 214bd882c8aSJames Wright CeedScalar *out = dim_2 == dim - 1 ? cur_v : (dim_2 % 2 ? s_buffer_1 : s_buffer_2); 215bd882c8aSJames Wright 216bd882c8aSJames Wright // Contract along middle index 217bd882c8aSJames Wright const CeedInt writeLen = pre * post * Q; 218bd882c8aSJames Wright for (CeedInt k = i; k < writeLen; k += group_size) { 219bd882c8aSJames Wright const CeedInt c = k % post; 220bd882c8aSJames Wright const CeedInt j = (k / post) % Q; 221bd882c8aSJames Wright const CeedInt a = k / (post * Q); 222bd882c8aSJames Wright 223bd882c8aSJames Wright CeedScalar v_k = 0; 224bd882c8aSJames Wright for (CeedInt b = 0; b < P; b++) v_k += op[j * stride_0 + b * stride_1] * in[(a * P + b) * post + c]; 225bd882c8aSJames Wright 226bd882c8aSJames Wright if (transpose && dim_2 == dim - 1) out[k] += v_k; 227bd882c8aSJames Wright else out[k] = v_k; 228bd882c8aSJames Wright } 229bd882c8aSJames Wright 230bd882c8aSJames Wright post *= Q; 231bd882c8aSJames Wright } 232bd882c8aSJames Wright } 233bd882c8aSJames Wright } 234bd882c8aSJames Wright }); 235bd882c8aSJames Wright }); 236bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 237bd882c8aSJames Wright } 238bd882c8aSJames Wright 239bd882c8aSJames Wright //------------------------------------------------------------------------------ 240bd882c8aSJames Wright // Weight kernel - tensor 241bd882c8aSJames Wright //------------------------------------------------------------------------------ 242bd882c8aSJames Wright static int CeedBasisApplyWeight_Sycl(sycl::queue &sycl_queue, CeedInt num_elem, const CeedBasis_Sycl *impl, CeedScalar *w) { 243bd882c8aSJames Wright const CeedInt dim = impl->dim; 244bd882c8aSJames Wright const CeedInt Q_1d = impl->Q_1d; 245bd882c8aSJames Wright const CeedScalar *q_weight_1d = impl->d_q_weight_1d; 246bd882c8aSJames Wright 247bd882c8aSJames Wright const CeedInt num_quad_x = Q_1d; 248bd882c8aSJames Wright const CeedInt num_quad_y = (dim > 1) ? Q_1d : 1; 249bd882c8aSJames Wright const CeedInt num_quad_z = (dim > 2) ? Q_1d : 1; 250bd882c8aSJames Wright sycl::range<3> kernel_range(num_elem * num_quad_z, num_quad_y, num_quad_x); 251bd882c8aSJames Wright 252bd882c8aSJames Wright // Order queue 253bd882c8aSJames Wright sycl::event e = sycl_queue.ext_oneapi_submit_barrier(); 254bd882c8aSJames Wright sycl_queue.parallel_for<CeedBasisSyclWeight>(kernel_range, {e}, [=](sycl::item<3> work_item) { 255bd882c8aSJames Wright if (dim == 1) w[work_item.get_linear_id()] = q_weight_1d[work_item[2]]; 256bd882c8aSJames Wright if (dim == 2) w[work_item.get_linear_id()] = q_weight_1d[work_item[2]] * q_weight_1d[work_item[1]]; 257bd882c8aSJames Wright if (dim == 3) w[work_item.get_linear_id()] = q_weight_1d[work_item[2]] * q_weight_1d[work_item[1]] * q_weight_1d[work_item[0] % Q_1d]; 258bd882c8aSJames Wright }); 259bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 260bd882c8aSJames Wright } 261bd882c8aSJames Wright 262bd882c8aSJames Wright //------------------------------------------------------------------------------ 263bd882c8aSJames Wright // Basis apply - tensor 264bd882c8aSJames Wright //------------------------------------------------------------------------------ 265bd882c8aSJames Wright static int CeedBasisApply_Sycl(CeedBasis basis, const CeedInt num_elem, CeedTransposeMode t_mode, CeedEvalMode eval_mode, CeedVector u, 266bd882c8aSJames Wright CeedVector v) { 267bd882c8aSJames Wright Ceed ceed; 268bd882c8aSJames Wright CeedCallBackend(CeedBasisGetCeed(basis, &ceed)); 269bd882c8aSJames Wright Ceed_Sycl *data; 270bd882c8aSJames Wright CeedCallBackend(CeedGetData(ceed, &data)); 271bd882c8aSJames Wright CeedBasis_Sycl *impl; 272bd882c8aSJames Wright CeedCallBackend(CeedBasisGetData(basis, &impl)); 273bd882c8aSJames Wright 274bd882c8aSJames Wright const CeedInt transpose = t_mode == CEED_TRANSPOSE; 275bd882c8aSJames Wright 276bd882c8aSJames Wright // Read vectors 277bd882c8aSJames Wright const CeedScalar *d_u; 278bd882c8aSJames Wright CeedScalar *d_v; 279bd882c8aSJames Wright if (eval_mode != CEED_EVAL_WEIGHT) { 280bd882c8aSJames Wright CeedCallBackend(CeedVectorGetArrayRead(u, CEED_MEM_DEVICE, &d_u)); 281bd882c8aSJames Wright } 282bd882c8aSJames Wright CeedCallBackend(CeedVectorGetArrayWrite(v, CEED_MEM_DEVICE, &d_v)); 283bd882c8aSJames Wright 284bd882c8aSJames Wright // Clear v for transpose operation 285bd882c8aSJames Wright if (t_mode == CEED_TRANSPOSE) { 286bd882c8aSJames Wright CeedSize length; 287bd882c8aSJames Wright CeedCallBackend(CeedVectorGetLength(v, &length)); 288bd882c8aSJames Wright // Order queue 289bd882c8aSJames Wright sycl::event e = data->sycl_queue.ext_oneapi_submit_barrier(); 290bd882c8aSJames Wright data->sycl_queue.fill<CeedScalar>(d_v, 0, length, {e}); 291bd882c8aSJames Wright } 292bd882c8aSJames Wright 293bd882c8aSJames Wright // Basis action 294bd882c8aSJames Wright switch (eval_mode) { 295bd882c8aSJames Wright case CEED_EVAL_INTERP: { 296bd882c8aSJames Wright if (transpose) { 297bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyInterp_Sycl<CEED_TRANSPOSE>(data->sycl_queue, *impl->sycl_module, num_elem, impl, d_u, d_v)); 298bd882c8aSJames Wright } else { 299bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyInterp_Sycl<CEED_NOTRANSPOSE>(data->sycl_queue, *impl->sycl_module, num_elem, impl, d_u, d_v)); 300bd882c8aSJames Wright } 301bd882c8aSJames Wright } break; 302bd882c8aSJames Wright case CEED_EVAL_GRAD: { 303bd882c8aSJames Wright if (transpose) { 304bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyGrad_Sycl<1>(data->sycl_queue, *impl->sycl_module, num_elem, impl, d_u, d_v)); 305bd882c8aSJames Wright } else { 306bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyGrad_Sycl<0>(data->sycl_queue, *impl->sycl_module, num_elem, impl, d_u, d_v)); 307bd882c8aSJames Wright } 308bd882c8aSJames Wright } break; 309bd882c8aSJames Wright case CEED_EVAL_WEIGHT: { 310bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyWeight_Sycl(data->sycl_queue, num_elem, impl, d_v)); 311bd882c8aSJames Wright } break; 312bd882c8aSJames Wright // LCOV_EXCL_START 313bd882c8aSJames Wright // Evaluate the divergence to/from the quadrature points 314bd882c8aSJames Wright case CEED_EVAL_DIV: 315bd882c8aSJames Wright return CeedError(ceed, CEED_ERROR_BACKEND, "CEED_EVAL_DIV not supported"); 316bd882c8aSJames Wright // Evaluate the curl to/from the quadrature points 317bd882c8aSJames Wright case CEED_EVAL_CURL: 318bd882c8aSJames Wright return CeedError(ceed, CEED_ERROR_BACKEND, "CEED_EVAL_CURL not supported"); 319bd882c8aSJames Wright // Take no action, BasisApply should not have been called 320bd882c8aSJames Wright case CEED_EVAL_NONE: 321bd882c8aSJames Wright return CeedError(ceed, CEED_ERROR_BACKEND, "CEED_EVAL_NONE does not make sense in this context"); 322bd882c8aSJames Wright // LCOV_EXCL_STOP 323bd882c8aSJames Wright } 324bd882c8aSJames Wright 325bd882c8aSJames Wright // Restore vectors 326bd882c8aSJames Wright if (eval_mode != CEED_EVAL_WEIGHT) { 327bd882c8aSJames Wright CeedCallBackend(CeedVectorRestoreArrayRead(u, &d_u)); 328bd882c8aSJames Wright } 329bd882c8aSJames Wright CeedCallBackend(CeedVectorRestoreArray(v, &d_v)); 330bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 331bd882c8aSJames Wright } 332bd882c8aSJames Wright 333bd882c8aSJames Wright //------------------------------------------------------------------------------ 334bd882c8aSJames Wright // Interpolation kernel - non-tensor 335bd882c8aSJames Wright //------------------------------------------------------------------------------ 336bd882c8aSJames Wright static int CeedBasisApplyNonTensorInterp_Sycl(sycl::queue &sycl_queue, CeedInt num_elem, CeedInt transpose, const CeedBasisNonTensor_Sycl *impl, 337bd882c8aSJames Wright const CeedScalar *d_U, CeedScalar *d_V) { 338bd882c8aSJames Wright const CeedInt num_comp = impl->num_comp; 339bd882c8aSJames Wright const CeedInt P = transpose ? impl->num_qpts : impl->num_nodes; 340bd882c8aSJames Wright const CeedInt Q = transpose ? impl->num_nodes : impl->num_qpts; 341bd882c8aSJames Wright const CeedInt stride_0 = transpose ? 1 : impl->num_nodes; 342bd882c8aSJames Wright const CeedInt stride_1 = transpose ? impl->num_nodes : 1; 343bd882c8aSJames Wright const CeedInt u_stride = P; 344bd882c8aSJames Wright const CeedInt v_stride = Q; 345bd882c8aSJames Wright const CeedInt u_comp_stride = u_stride * num_elem; 346bd882c8aSJames Wright const CeedInt v_comp_stride = v_stride * num_elem; 347bd882c8aSJames Wright const CeedInt u_size = P; 348bd882c8aSJames Wright const CeedInt v_size = Q; 349bd882c8aSJames Wright const CeedScalar *d_B = impl->d_interp; 350bd882c8aSJames Wright 351bd882c8aSJames Wright sycl::range<2> kernel_range(num_elem, v_size); 352bd882c8aSJames Wright 353bd882c8aSJames Wright // Order queue 354bd882c8aSJames Wright sycl::event e = sycl_queue.ext_oneapi_submit_barrier(); 355bd882c8aSJames Wright sycl_queue.parallel_for<CeedBasisSyclInterpNT>(kernel_range, {e}, [=](sycl::id<2> indx) { 356bd882c8aSJames Wright const CeedInt i = indx[1]; 357bd882c8aSJames Wright const CeedInt elem = indx[0]; 358bd882c8aSJames Wright 359bd882c8aSJames Wright for (CeedInt comp = 0; comp < num_comp; comp++) { 360bd882c8aSJames Wright const CeedScalar *U = d_U + elem * u_stride + comp * u_comp_stride; 361bd882c8aSJames Wright CeedScalar V = 0.0; 362bd882c8aSJames Wright 363bd882c8aSJames Wright for (CeedInt j = 0; j < u_size; ++j) { 364bd882c8aSJames Wright V += d_B[i * stride_0 + j * stride_1] * U[j]; 365bd882c8aSJames Wright } 366bd882c8aSJames Wright d_V[i + elem * v_stride + comp * v_comp_stride] = V; 367bd882c8aSJames Wright } 368bd882c8aSJames Wright }); 369bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 370bd882c8aSJames Wright } 371bd882c8aSJames Wright 372bd882c8aSJames Wright //------------------------------------------------------------------------------ 373bd882c8aSJames Wright // Gradient kernel - non-tensor 374bd882c8aSJames Wright //------------------------------------------------------------------------------ 375bd882c8aSJames Wright static int CeedBasisApplyNonTensorGrad_Sycl(sycl::queue &sycl_queue, CeedInt num_elem, CeedInt transpose, const CeedBasisNonTensor_Sycl *impl, 376bd882c8aSJames Wright const CeedScalar *d_U, CeedScalar *d_V) { 377bd882c8aSJames Wright const CeedInt num_comp = impl->num_comp; 378bd882c8aSJames Wright const CeedInt P = transpose ? impl->num_qpts : impl->num_nodes; 379bd882c8aSJames Wright const CeedInt Q = transpose ? impl->num_nodes : impl->num_qpts; 380bd882c8aSJames Wright const CeedInt stride_0 = transpose ? 1 : impl->num_nodes; 381bd882c8aSJames Wright const CeedInt stride_1 = transpose ? impl->num_nodes : 1; 382bd882c8aSJames Wright const CeedInt g_dim_stride = P * Q; 383bd882c8aSJames Wright const CeedInt u_stride = P; 384bd882c8aSJames Wright const CeedInt v_stride = Q; 385bd882c8aSJames Wright const CeedInt u_comp_stride = u_stride * num_elem; 386bd882c8aSJames Wright const CeedInt v_comp_stride = v_stride * num_elem; 387bd882c8aSJames Wright const CeedInt u_dim_stride = u_comp_stride * num_comp; 388bd882c8aSJames Wright const CeedInt v_dim_stride = v_comp_stride * num_comp; 389bd882c8aSJames Wright const CeedInt u_size = P; 390bd882c8aSJames Wright const CeedInt v_size = Q; 391bd882c8aSJames Wright const CeedInt in_dim = transpose ? impl->dim : 1; 392bd882c8aSJames Wright const CeedInt out_dim = transpose ? 1 : impl->dim; 393bd882c8aSJames Wright const CeedScalar *d_G = impl->d_grad; 394bd882c8aSJames Wright 395bd882c8aSJames Wright sycl::range<2> kernel_range(num_elem, v_size); 396bd882c8aSJames Wright 397bd882c8aSJames Wright // Order queue 398bd882c8aSJames Wright sycl::event e = sycl_queue.ext_oneapi_submit_barrier(); 399bd882c8aSJames Wright sycl_queue.parallel_for<CeedBasisSyclGradNT>(kernel_range, {e}, [=](sycl::id<2> indx) { 400bd882c8aSJames Wright const CeedInt i = indx[1]; 401bd882c8aSJames Wright const CeedInt elem = indx[0]; 402bd882c8aSJames Wright 403bd882c8aSJames Wright for (CeedInt comp = 0; comp < num_comp; comp++) { 404bd882c8aSJames Wright CeedScalar V[3] = {0.0, 0.0, 0.0}; 405bd882c8aSJames Wright 406bd882c8aSJames Wright for (CeedInt d1 = 0; d1 < in_dim; ++d1) { 407bd882c8aSJames Wright const CeedScalar *U = d_U + elem * u_stride + comp * u_comp_stride + d1 * u_dim_stride; 408bd882c8aSJames Wright const CeedScalar *G = d_G + i * stride_0 + d1 * g_dim_stride; 409bd882c8aSJames Wright 410bd882c8aSJames Wright for (CeedInt j = 0; j < u_size; ++j) { 411bd882c8aSJames Wright const CeedScalar Uj = U[j]; 412bd882c8aSJames Wright 413bd882c8aSJames Wright for (CeedInt d0 = 0; d0 < out_dim; ++d0) { 414bd882c8aSJames Wright V[d0] += G[j * stride_1 + d0 * g_dim_stride] * Uj; 415bd882c8aSJames Wright } 416bd882c8aSJames Wright } 417bd882c8aSJames Wright } 418bd882c8aSJames Wright for (CeedInt d0 = 0; d0 < out_dim; ++d0) { 419bd882c8aSJames Wright d_V[i + elem * v_stride + comp * v_comp_stride + d0 * v_dim_stride] = V[d0]; 420bd882c8aSJames Wright } 421bd882c8aSJames Wright } 422bd882c8aSJames Wright }); 423bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 424bd882c8aSJames Wright } 425bd882c8aSJames Wright 426bd882c8aSJames Wright //------------------------------------------------------------------------------ 427bd882c8aSJames Wright // Weight kernel - non-tensor 428bd882c8aSJames Wright //------------------------------------------------------------------------------ 429bd882c8aSJames Wright static int CeedBasisApplyNonTensorWeight_Sycl(sycl::queue &sycl_queue, CeedInt num_elem, const CeedBasisNonTensor_Sycl *impl, CeedScalar *d_V) { 430bd882c8aSJames Wright const CeedInt num_qpts = impl->num_qpts; 431bd882c8aSJames Wright const CeedScalar *q_weight = impl->d_q_weight; 432bd882c8aSJames Wright 433bd882c8aSJames Wright sycl::range<2> kernel_range(num_elem, num_qpts); 434bd882c8aSJames Wright 435bd882c8aSJames Wright // Order queue 436bd882c8aSJames Wright sycl::event e = sycl_queue.ext_oneapi_submit_barrier(); 437bd882c8aSJames Wright sycl_queue.parallel_for<CeedBasisSyclWeightNT>(kernel_range, {e}, [=](sycl::id<2> indx) { 438bd882c8aSJames Wright const CeedInt i = indx[1]; 439bd882c8aSJames Wright const CeedInt elem = indx[0]; 440bd882c8aSJames Wright d_V[i + elem * num_qpts] = q_weight[i]; 441bd882c8aSJames Wright }); 442bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 443bd882c8aSJames Wright } 444bd882c8aSJames Wright 445bd882c8aSJames Wright //------------------------------------------------------------------------------ 446bd882c8aSJames Wright // Basis apply - non-tensor 447bd882c8aSJames Wright //------------------------------------------------------------------------------ 448bd882c8aSJames Wright static int CeedBasisApplyNonTensor_Sycl(CeedBasis basis, const CeedInt num_elem, CeedTransposeMode t_mode, CeedEvalMode eval_mode, CeedVector u, 449bd882c8aSJames Wright CeedVector v) { 450bd882c8aSJames Wright Ceed ceed; 451bd882c8aSJames Wright CeedCallBackend(CeedBasisGetCeed(basis, &ceed)); 452bd882c8aSJames Wright CeedBasisNonTensor_Sycl *impl; 453bd882c8aSJames Wright CeedCallBackend(CeedBasisGetData(basis, &impl)); 454bd882c8aSJames Wright Ceed_Sycl *data; 455bd882c8aSJames Wright CeedCallBackend(CeedGetData(ceed, &data)); 456bd882c8aSJames Wright 457bd882c8aSJames Wright const CeedInt transpose = t_mode == CEED_TRANSPOSE; 458bd882c8aSJames Wright 459bd882c8aSJames Wright // Read vectors 460bd882c8aSJames Wright const CeedScalar *d_u; 461bd882c8aSJames Wright CeedScalar *d_v; 462bd882c8aSJames Wright if (eval_mode != CEED_EVAL_WEIGHT) { 463bd882c8aSJames Wright CeedCallBackend(CeedVectorGetArrayRead(u, CEED_MEM_DEVICE, &d_u)); 464bd882c8aSJames Wright } 465bd882c8aSJames Wright CeedCallBackend(CeedVectorGetArrayWrite(v, CEED_MEM_DEVICE, &d_v)); 466bd882c8aSJames Wright 467bd882c8aSJames Wright // Clear v for transpose operation 468bd882c8aSJames Wright if (transpose) { 469bd882c8aSJames Wright CeedSize length; 470bd882c8aSJames Wright CeedCallBackend(CeedVectorGetLength(v, &length)); 471bd882c8aSJames Wright // Order queue 472bd882c8aSJames Wright sycl::event e = data->sycl_queue.ext_oneapi_submit_barrier(); 473bd882c8aSJames Wright data->sycl_queue.fill<CeedScalar>(d_v, 0, length, {e}); 474bd882c8aSJames Wright } 475bd882c8aSJames Wright 476bd882c8aSJames Wright // Apply basis operation 477bd882c8aSJames Wright switch (eval_mode) { 478bd882c8aSJames Wright case CEED_EVAL_INTERP: { 479bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyNonTensorInterp_Sycl(data->sycl_queue, num_elem, transpose, impl, d_u, d_v)); 480bd882c8aSJames Wright } break; 481bd882c8aSJames Wright case CEED_EVAL_GRAD: { 482bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyNonTensorGrad_Sycl(data->sycl_queue, num_elem, transpose, impl, d_u, d_v)); 483bd882c8aSJames Wright } break; 484bd882c8aSJames Wright case CEED_EVAL_WEIGHT: { 485bd882c8aSJames Wright CeedCallBackend(CeedBasisApplyNonTensorWeight_Sycl(data->sycl_queue, num_elem, impl, d_v)); 486bd882c8aSJames Wright } break; 487bd882c8aSJames Wright // LCOV_EXCL_START 488bd882c8aSJames Wright // Evaluate the divergence to/from the quadrature points 489bd882c8aSJames Wright case CEED_EVAL_DIV: 490bd882c8aSJames Wright return CeedError(ceed, CEED_ERROR_BACKEND, "CEED_EVAL_DIV not supported"); 491bd882c8aSJames Wright // Evaluate the curl to/from the quadrature points 492bd882c8aSJames Wright case CEED_EVAL_CURL: 493bd882c8aSJames Wright return CeedError(ceed, CEED_ERROR_BACKEND, "CEED_EVAL_CURL not supported"); 494bd882c8aSJames Wright // Take no action, BasisApply should not have been called 495bd882c8aSJames Wright case CEED_EVAL_NONE: 496bd882c8aSJames Wright return CeedError(ceed, CEED_ERROR_BACKEND, "CEED_EVAL_NONE does not make sense in this context"); 497bd882c8aSJames Wright // LCOV_EXCL_STOP 498bd882c8aSJames Wright } 499bd882c8aSJames Wright 500bd882c8aSJames Wright // Restore vectors 501bd882c8aSJames Wright if (eval_mode != CEED_EVAL_WEIGHT) { 502bd882c8aSJames Wright CeedCallBackend(CeedVectorRestoreArrayRead(u, &d_u)); 503bd882c8aSJames Wright } 504bd882c8aSJames Wright 505bd882c8aSJames Wright CeedCallBackend(CeedVectorRestoreArray(v, &d_v)); 506bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 507bd882c8aSJames Wright } 508bd882c8aSJames Wright 509bd882c8aSJames Wright //------------------------------------------------------------------------------ 510bd882c8aSJames Wright // Destroy tensor basis 511bd882c8aSJames Wright //------------------------------------------------------------------------------ 512bd882c8aSJames Wright static int CeedBasisDestroy_Sycl(CeedBasis basis) { 513bd882c8aSJames Wright Ceed ceed; 514bd882c8aSJames Wright CeedCallBackend(CeedBasisGetCeed(basis, &ceed)); 515bd882c8aSJames Wright CeedBasis_Sycl *impl; 516bd882c8aSJames Wright CeedCallBackend(CeedBasisGetData(basis, &impl)); 517bd882c8aSJames Wright Ceed_Sycl *data; 518bd882c8aSJames Wright CeedCallBackend(CeedGetData(ceed, &data)); 519bd882c8aSJames Wright 520bd882c8aSJames Wright // Wait for all work to finish before freeing memory 521bd882c8aSJames Wright CeedCallSycl(ceed, data->sycl_queue.wait_and_throw()); 522bd882c8aSJames Wright 523bd882c8aSJames Wright CeedCallSycl(ceed, sycl::free(impl->d_q_weight_1d, data->sycl_context)); 524bd882c8aSJames Wright CeedCallSycl(ceed, sycl::free(impl->d_interp_1d, data->sycl_context)); 525bd882c8aSJames Wright CeedCallSycl(ceed, sycl::free(impl->d_grad_1d, data->sycl_context)); 526bd882c8aSJames Wright 527bd882c8aSJames Wright CeedCallBackend(CeedFree(&impl)); 528bd882c8aSJames Wright 529bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 530bd882c8aSJames Wright } 531bd882c8aSJames Wright 532bd882c8aSJames Wright //------------------------------------------------------------------------------ 533bd882c8aSJames Wright // Destroy non-tensor basis 534bd882c8aSJames Wright //------------------------------------------------------------------------------ 535bd882c8aSJames Wright static int CeedBasisDestroyNonTensor_Sycl(CeedBasis basis) { 536bd882c8aSJames Wright Ceed ceed; 537bd882c8aSJames Wright CeedCallBackend(CeedBasisGetCeed(basis, &ceed)); 538bd882c8aSJames Wright CeedBasisNonTensor_Sycl *impl; 539bd882c8aSJames Wright CeedCallBackend(CeedBasisGetData(basis, &impl)); 540bd882c8aSJames Wright Ceed_Sycl *data; 541bd882c8aSJames Wright CeedCallBackend(CeedGetData(ceed, &data)); 542bd882c8aSJames Wright 543bd882c8aSJames Wright // Wait for all work to finish before freeing memory 544bd882c8aSJames Wright CeedCallSycl(ceed, data->sycl_queue.wait_and_throw()); 545bd882c8aSJames Wright 546bd882c8aSJames Wright CeedCallSycl(ceed, sycl::free(impl->d_q_weight, data->sycl_context)); 547bd882c8aSJames Wright CeedCallSycl(ceed, sycl::free(impl->d_interp, data->sycl_context)); 548bd882c8aSJames Wright CeedCallSycl(ceed, sycl::free(impl->d_grad, data->sycl_context)); 549bd882c8aSJames Wright 550bd882c8aSJames Wright CeedCallBackend(CeedFree(&impl)); 551bd882c8aSJames Wright 552bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 553bd882c8aSJames Wright } 554bd882c8aSJames Wright 555bd882c8aSJames Wright //------------------------------------------------------------------------------ 556bd882c8aSJames Wright // Create tensor 557bd882c8aSJames Wright //------------------------------------------------------------------------------ 558bd882c8aSJames Wright int CeedBasisCreateTensorH1_Sycl(CeedInt dim, CeedInt P_1d, CeedInt Q_1d, const CeedScalar *interp_1d, const CeedScalar *grad_1d, 559bd882c8aSJames Wright const CeedScalar *q_ref_1d, const CeedScalar *q_weight_1d, CeedBasis basis) { 560bd882c8aSJames Wright Ceed ceed; 561bd882c8aSJames Wright CeedCallBackend(CeedBasisGetCeed(basis, &ceed)); 562bd882c8aSJames Wright CeedBasis_Sycl *impl; 563bd882c8aSJames Wright CeedCallBackend(CeedCalloc(1, &impl)); 564bd882c8aSJames Wright Ceed_Sycl *data; 565bd882c8aSJames Wright CeedCallBackend(CeedGetData(ceed, &data)); 566bd882c8aSJames Wright 567bd882c8aSJames Wright CeedInt num_comp; 568bd882c8aSJames Wright CeedCallBackend(CeedBasisGetNumComponents(basis, &num_comp)); 569bd882c8aSJames Wright 570bd882c8aSJames Wright const CeedInt num_nodes = CeedIntPow(P_1d, dim); 571bd882c8aSJames Wright const CeedInt num_qpts = CeedIntPow(Q_1d, dim); 572bd882c8aSJames Wright 573bd882c8aSJames Wright impl->dim = dim; 574bd882c8aSJames Wright impl->P_1d = P_1d; 575bd882c8aSJames Wright impl->Q_1d = Q_1d; 576bd882c8aSJames Wright impl->num_comp = num_comp; 577bd882c8aSJames Wright impl->num_nodes = num_nodes; 578bd882c8aSJames Wright impl->num_qpts = num_qpts; 579bd882c8aSJames Wright impl->buf_len = num_comp * CeedIntMax(num_nodes, num_qpts); 580bd882c8aSJames Wright impl->op_len = Q_1d * P_1d; 581bd882c8aSJames Wright 582bd882c8aSJames Wright // Order queue 583bd882c8aSJames Wright sycl::event e = data->sycl_queue.ext_oneapi_submit_barrier(); 584bd882c8aSJames Wright 585bd882c8aSJames Wright CeedCallSycl(ceed, impl->d_q_weight_1d = sycl::malloc_device<CeedScalar>(Q_1d, data->sycl_device, data->sycl_context)); 586bd882c8aSJames Wright sycl::event copy_weight = data->sycl_queue.copy<CeedScalar>(q_weight_1d, impl->d_q_weight_1d, Q_1d, {e}); 587bd882c8aSJames Wright 588bd882c8aSJames Wright const CeedInt interp_length = Q_1d * P_1d; 589bd882c8aSJames Wright CeedCallSycl(ceed, impl->d_interp_1d = sycl::malloc_device<CeedScalar>(interp_length, data->sycl_device, data->sycl_context)); 590bd882c8aSJames Wright sycl::event copy_interp = data->sycl_queue.copy<CeedScalar>(interp_1d, impl->d_interp_1d, interp_length, {e}); 591bd882c8aSJames Wright 592bd882c8aSJames Wright CeedCallSycl(ceed, impl->d_grad_1d = sycl::malloc_device<CeedScalar>(interp_length, data->sycl_device, data->sycl_context)); 593bd882c8aSJames Wright sycl::event copy_grad = data->sycl_queue.copy<CeedScalar>(grad_1d, impl->d_grad_1d, interp_length, {e}); 594bd882c8aSJames Wright 595bd882c8aSJames Wright CeedCallSycl(ceed, sycl::event::wait_and_throw({copy_weight, copy_interp, copy_grad})); 596bd882c8aSJames Wright 597bd882c8aSJames Wright std::vector<sycl::kernel_id> kernel_ids = {sycl::get_kernel_id<CeedBasisSyclInterp<1>>(), sycl::get_kernel_id<CeedBasisSyclInterp<0>>(), 598bd882c8aSJames Wright sycl::get_kernel_id<CeedBasisSyclGrad<1>>(), sycl::get_kernel_id<CeedBasisSyclGrad<0>>()}; 599bd882c8aSJames Wright 600bd882c8aSJames Wright sycl::kernel_bundle<sycl::bundle_state::input> input_bundle = sycl::get_kernel_bundle<sycl::bundle_state::input>(data->sycl_context, kernel_ids); 601bd882c8aSJames Wright input_bundle.set_specialization_constant<BASIS_DIM_ID>(dim); 602bd882c8aSJames Wright input_bundle.set_specialization_constant<BASIS_NUM_COMP_ID>(num_comp); 603bd882c8aSJames Wright input_bundle.set_specialization_constant<BASIS_Q_1D_ID>(Q_1d); 604bd882c8aSJames Wright input_bundle.set_specialization_constant<BASIS_P_1D_ID>(P_1d); 605bd882c8aSJames Wright 606bd882c8aSJames Wright CeedCallSycl(ceed, impl->sycl_module = new SyclModule_t(sycl::build(input_bundle))); 607bd882c8aSJames Wright 608bd882c8aSJames Wright CeedCallBackend(CeedBasisSetData(basis, impl)); 609bd882c8aSJames Wright 610bd882c8aSJames Wright // Register backend functions 611bd882c8aSJames Wright CeedCallBackend(CeedSetBackendFunctionCpp(ceed, "Basis", basis, "Apply", CeedBasisApply_Sycl)); 612bd882c8aSJames Wright CeedCallBackend(CeedSetBackendFunctionCpp(ceed, "Basis", basis, "Destroy", CeedBasisDestroy_Sycl)); 613bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 614bd882c8aSJames Wright } 615bd882c8aSJames Wright 616bd882c8aSJames Wright //------------------------------------------------------------------------------ 617bd882c8aSJames Wright // Create non-tensor 618bd882c8aSJames Wright //------------------------------------------------------------------------------ 619bd882c8aSJames Wright int CeedBasisCreateH1_Sycl(CeedElemTopology topo, CeedInt dim, CeedInt num_nodes, CeedInt num_qpts, const CeedScalar *interp, const CeedScalar *grad, 620bd882c8aSJames Wright const CeedScalar *qref, const CeedScalar *q_weight, CeedBasis basis) { 621bd882c8aSJames Wright Ceed ceed; 622bd882c8aSJames Wright CeedCallBackend(CeedBasisGetCeed(basis, &ceed)); 623bd882c8aSJames Wright CeedBasisNonTensor_Sycl *impl; 624bd882c8aSJames Wright CeedCallBackend(CeedCalloc(1, &impl)); 625bd882c8aSJames Wright Ceed_Sycl *data; 626bd882c8aSJames Wright CeedCallBackend(CeedGetData(ceed, &data)); 627bd882c8aSJames Wright 628bd882c8aSJames Wright CeedInt num_comp; 629bd882c8aSJames Wright CeedCallBackend(CeedBasisGetNumComponents(basis, &num_comp)); 630bd882c8aSJames Wright 631bd882c8aSJames Wright impl->dim = dim; 632bd882c8aSJames Wright impl->num_comp = num_comp; 633bd882c8aSJames Wright impl->num_nodes = num_nodes; 634bd882c8aSJames Wright impl->num_qpts = num_qpts; 635bd882c8aSJames Wright 636bd882c8aSJames Wright // Order queue 637bd882c8aSJames Wright sycl::event e = data->sycl_queue.ext_oneapi_submit_barrier(); 638bd882c8aSJames Wright 639bd882c8aSJames Wright CeedCallSycl(ceed, impl->d_q_weight = sycl::malloc_device<CeedScalar>(num_qpts, data->sycl_device, data->sycl_context)); 640bd882c8aSJames Wright sycl::event copy_weight = data->sycl_queue.copy<CeedScalar>(q_weight, impl->d_q_weight, num_qpts, {e}); 641bd882c8aSJames Wright 642bd882c8aSJames Wright const CeedInt interp_length = num_qpts * num_nodes; 643bd882c8aSJames Wright CeedCallSycl(ceed, impl->d_interp = sycl::malloc_device<CeedScalar>(interp_length, data->sycl_device, data->sycl_context)); 644bd882c8aSJames Wright sycl::event copy_interp = data->sycl_queue.copy<CeedScalar>(interp, impl->d_interp, interp_length, {e}); 645bd882c8aSJames Wright 646bd882c8aSJames Wright const CeedInt grad_length = num_qpts * num_nodes * dim; 647bd882c8aSJames Wright CeedCallSycl(ceed, impl->d_grad = sycl::malloc_device<CeedScalar>(grad_length, data->sycl_device, data->sycl_context)); 648bd882c8aSJames Wright sycl::event copy_grad = data->sycl_queue.copy<CeedScalar>(grad, impl->d_grad, grad_length, {e}); 649bd882c8aSJames Wright 650bd882c8aSJames Wright CeedCallSycl(ceed, sycl::event::wait_and_throw({copy_weight, copy_interp, copy_grad})); 651bd882c8aSJames Wright 652bd882c8aSJames Wright CeedCallBackend(CeedBasisSetData(basis, impl)); 653bd882c8aSJames Wright 654bd882c8aSJames Wright // Register backend functions 655bd882c8aSJames Wright CeedCallBackend(CeedSetBackendFunctionCpp(ceed, "Basis", basis, "Apply", CeedBasisApplyNonTensor_Sycl)); 656bd882c8aSJames Wright CeedCallBackend(CeedSetBackendFunctionCpp(ceed, "Basis", basis, "Destroy", CeedBasisDestroyNonTensor_Sycl)); 657bd882c8aSJames Wright return CEED_ERROR_SUCCESS; 658bd882c8aSJames Wright } 659*ff1e7120SSebastian Grimberg 660bd882c8aSJames Wright //------------------------------------------------------------------------------ 661