17d8d0e25Snbeams // Copyright (c) 2017-2018, Lawrence Livermore National Security, LLC. 27d8d0e25Snbeams // Produced at the Lawrence Livermore National Laboratory. LLNL-CODE-734707. 37d8d0e25Snbeams // All Rights reserved. See files LICENSE and NOTICE for details. 47d8d0e25Snbeams // 57d8d0e25Snbeams // This file is part of CEED, a collection of benchmarks, miniapps, software 67d8d0e25Snbeams // libraries and APIs for efficient high-order finite element and spectral 77d8d0e25Snbeams // element discretizations for exascale applications. For more information and 87d8d0e25Snbeams // source code availability see http://github.com/ceed. 97d8d0e25Snbeams // 107d8d0e25Snbeams // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 117d8d0e25Snbeams // a collaborative effort of two U.S. Department of Energy organizations (Office 127d8d0e25Snbeams // of Science and the National Nuclear Security Administration) responsible for 137d8d0e25Snbeams // the planning and preparation of a capable exascale ecosystem, including 147d8d0e25Snbeams // software, applications, hardware, advanced system engineering and early 157d8d0e25Snbeams // testbed platforms, in support of the nation's exascale computing imperative. 163d576824SJeremy L Thompson 177d8d0e25Snbeams #define CEED_DEBUG_COLOR 12 187d8d0e25Snbeams 19ec3da8bcSJed Brown #include <ceed/ceed.h> 20ec3da8bcSJed Brown #include <ceed/backend.h> 217d8d0e25Snbeams #include <iostream> 223d576824SJeremy L Thompson #include <string> 237d8d0e25Snbeams #include <sstream> 243d576824SJeremy L Thompson #include "ceed-hip-gen.h" 253d576824SJeremy L Thompson #include "../hip/ceed-hip.h" 267d8d0e25Snbeams #include "../hip-shared/ceed-hip-shared.h" 277d8d0e25Snbeams #include "../hip/ceed-hip-compile.h" 287d8d0e25Snbeams 297d8d0e25Snbeams static const char *deviceFunctions = QUOTE( 307d8d0e25Snbeams 317d8d0e25Snbeams //------------------------------------------------------------------------------ 327d8d0e25Snbeams // Typedefs 337d8d0e25Snbeams //------------------------------------------------------------------------------ 347d8d0e25Snbeams typedef struct { const CeedScalar* in[16]; CeedScalar* out[16]; } HipFields; 357d8d0e25Snbeams typedef struct { CeedInt* in[16]; CeedInt* out[16]; } HipFieldsInt; 367d8d0e25Snbeams 377d8d0e25Snbeams typedef struct { 387d8d0e25Snbeams CeedInt tidx; 397d8d0e25Snbeams CeedInt tidy; 407d8d0e25Snbeams CeedInt tidz; 417d8d0e25Snbeams CeedInt tid; 427d8d0e25Snbeams CeedScalar* slice; 437d8d0e25Snbeams } BackendData; 447d8d0e25Snbeams 457d8d0e25Snbeams //------------------------------------------------------------------------------ 467d8d0e25Snbeams // Load matrices for basis actions 477d8d0e25Snbeams //------------------------------------------------------------------------------ 487d8d0e25Snbeams template <int P, int Q> 497d8d0e25Snbeams inline __device__ void loadMatrix(BackendData& data, const CeedScalar* d_B, CeedScalar* B) { 507d8d0e25Snbeams for (CeedInt i = data.tid; i < P*Q; i += blockDim.x*blockDim.y*blockDim.z) 517d8d0e25Snbeams B[i] = d_B[i]; 527d8d0e25Snbeams } 537d8d0e25Snbeams 547d8d0e25Snbeams //------------------------------------------------------------------------------ 557d8d0e25Snbeams // 1D 567d8d0e25Snbeams //------------------------------------------------------------------------------ 577d8d0e25Snbeams 587d8d0e25Snbeams //------------------------------------------------------------------------------ 597d8d0e25Snbeams // L-vector -> E-vector, offsets provided 607d8d0e25Snbeams //------------------------------------------------------------------------------ 617d8d0e25Snbeams template <int NCOMP, int COMPSTRIDE, int P1d> 627d8d0e25Snbeams inline __device__ void readDofsOffset1d(BackendData& data, const CeedInt nnodes, const CeedInt elem, const CeedInt* indices, const CeedScalar* d_u, CeedScalar* r_u) { 637d8d0e25Snbeams if (data.tidx < P1d) { 647d8d0e25Snbeams const CeedInt node = data.tidx; 657d8d0e25Snbeams const CeedInt ind = indices[node + elem * P1d]; 667d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 677d8d0e25Snbeams r_u[comp] = d_u[ind + COMPSTRIDE * comp]; 687d8d0e25Snbeams } 697d8d0e25Snbeams } 707d8d0e25Snbeams 717d8d0e25Snbeams //------------------------------------------------------------------------------ 727d8d0e25Snbeams // L-vector -> E-vector, strided 737d8d0e25Snbeams //------------------------------------------------------------------------------ 747d8d0e25Snbeams template <int NCOMP, int P1d, int STRIDES_NODE, int STRIDES_COMP, int STRIDES_ELEM> 757d8d0e25Snbeams inline __device__ void readDofsStrided1d(BackendData& data, const CeedInt elem, const CeedScalar* d_u, CeedScalar* r_u) { 767d8d0e25Snbeams if (data.tidx < P1d) { 777d8d0e25Snbeams const CeedInt node = data.tidx; 787d8d0e25Snbeams const CeedInt ind = node * STRIDES_NODE + elem * STRIDES_ELEM; 797d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 807d8d0e25Snbeams r_u[comp] = d_u[ind + comp * STRIDES_COMP]; 817d8d0e25Snbeams } 827d8d0e25Snbeams } 837d8d0e25Snbeams 847d8d0e25Snbeams //------------------------------------------------------------------------------ 857d8d0e25Snbeams // E-vector -> L-vector, offsets provided 867d8d0e25Snbeams //------------------------------------------------------------------------------ 877d8d0e25Snbeams template <int NCOMP, int COMPSTRIDE, int P1d> 887d8d0e25Snbeams inline __device__ void writeDofsOffset1d(BackendData& data, const CeedInt nnodes, const CeedInt elem, const CeedInt* indices, const CeedScalar* r_v, CeedScalar* d_v) { 897d8d0e25Snbeams if (data.tidx < P1d) { 907d8d0e25Snbeams const CeedInt node = data.tidx; 917d8d0e25Snbeams const CeedInt ind = indices[node + elem * P1d]; 927d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 937d8d0e25Snbeams atomicAdd(&d_v[ind + COMPSTRIDE * comp], r_v[comp]); 947d8d0e25Snbeams } 957d8d0e25Snbeams } 967d8d0e25Snbeams 977d8d0e25Snbeams //------------------------------------------------------------------------------ 987d8d0e25Snbeams // E-vector -> L-vector, strided 997d8d0e25Snbeams //------------------------------------------------------------------------------ 1007d8d0e25Snbeams template <int NCOMP, int P1d, int STRIDES_NODE, int STRIDES_COMP, int STRIDES_ELEM> 1017d8d0e25Snbeams inline __device__ void writeDofsStrided1d(BackendData& data, const CeedInt elem, const CeedScalar* r_v, CeedScalar* d_v) { 1027d8d0e25Snbeams if (data.tidx < P1d) { 1037d8d0e25Snbeams const CeedInt node = data.tidx; 1047d8d0e25Snbeams const CeedInt ind = node * STRIDES_NODE + elem * STRIDES_ELEM; 1057d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 1067d8d0e25Snbeams d_v[ind + comp * STRIDES_COMP] += r_v[comp]; 1077d8d0e25Snbeams } 1087d8d0e25Snbeams } 1097d8d0e25Snbeams 1107d8d0e25Snbeams //------------------------------------------------------------------------------ 1117d8d0e25Snbeams // 1D tensor contraction x 1127d8d0e25Snbeams //------------------------------------------------------------------------------ 1137d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 1147d8d0e25Snbeams inline __device__ void ContractX1d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 1157d8d0e25Snbeams data.slice[data.tidx] = *U; 1167d8d0e25Snbeams __syncthreads(); 1177d8d0e25Snbeams *V = 0.0; 1187d8d0e25Snbeams if (data.tidx < Q1d) 1197d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 1207d8d0e25Snbeams *V += B[i + data.tidx*P1d] * data.slice[i]; // Contract x direction 1217d8d0e25Snbeams __syncthreads(); 1227d8d0e25Snbeams } 1237d8d0e25Snbeams 1247d8d0e25Snbeams //------------------------------------------------------------------------------ 1257d8d0e25Snbeams // 1D transpose tensor contraction x 1267d8d0e25Snbeams //------------------------------------------------------------------------------ 1277d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 1287d8d0e25Snbeams inline __device__ void ContractTransposeX1d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 1297d8d0e25Snbeams data.slice[data.tidx] = *U; 1307d8d0e25Snbeams __syncthreads(); 1317d8d0e25Snbeams *V = 0.0; 1327d8d0e25Snbeams if (data.tidx < P1d) 1337d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 1347d8d0e25Snbeams *V += B[data.tidx + i*P1d] * data.slice[i]; // Contract x direction 1357d8d0e25Snbeams __syncthreads(); 1367d8d0e25Snbeams } 1377d8d0e25Snbeams 1387d8d0e25Snbeams //------------------------------------------------------------------------------ 1397d8d0e25Snbeams // 1D interpolate to quadrature points 1407d8d0e25Snbeams //------------------------------------------------------------------------------ 1417d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 1427d8d0e25Snbeams inline __device__ void interp1d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, CeedScalar *__restrict__ r_V) { 1437d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) 1447d8d0e25Snbeams ContractX1d<NCOMP, P1d, Q1d>(data, r_U + comp, c_B, r_V + comp); 1457d8d0e25Snbeams } 1467d8d0e25Snbeams 1477d8d0e25Snbeams //------------------------------------------------------------------------------ 1487d8d0e25Snbeams // 1D interpolate transpose 1497d8d0e25Snbeams //------------------------------------------------------------------------------ 1507d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 1517d8d0e25Snbeams inline __device__ void interpTranspose1d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, CeedScalar *__restrict__ r_V) { 1527d8d0e25Snbeams for (CeedInt comp=0; comp<NCOMP; comp++) 1537d8d0e25Snbeams ContractTransposeX1d<NCOMP, P1d, Q1d>(data, r_U + comp, c_B, r_V + comp); 1547d8d0e25Snbeams } 1557d8d0e25Snbeams 1567d8d0e25Snbeams //------------------------------------------------------------------------------ 1577d8d0e25Snbeams // 1D derivatives at quadrature points 1587d8d0e25Snbeams //------------------------------------------------------------------------------ 1597d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 1607d8d0e25Snbeams inline __device__ void grad1d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 1617d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) 1627d8d0e25Snbeams ContractX1d<NCOMP, P1d, Q1d>(data, r_U + comp, c_G, r_V + comp); 1637d8d0e25Snbeams } 1647d8d0e25Snbeams 1657d8d0e25Snbeams //------------------------------------------------------------------------------ 1667d8d0e25Snbeams // 1D derivatives transpose 1677d8d0e25Snbeams //------------------------------------------------------------------------------ 1687d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 1697d8d0e25Snbeams inline __device__ void gradTranspose1d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 1707d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) 1717d8d0e25Snbeams ContractTransposeX1d<NCOMP, P1d, Q1d>(data, r_U + comp, c_G, r_V + comp); 1727d8d0e25Snbeams } 1737d8d0e25Snbeams 1747d8d0e25Snbeams //------------------------------------------------------------------------------ 1757d8d0e25Snbeams // 2D 1767d8d0e25Snbeams //------------------------------------------------------------------------------ 1777d8d0e25Snbeams 1787d8d0e25Snbeams //------------------------------------------------------------------------------ 1797d8d0e25Snbeams // L-vector -> E-vector, offsets provided 1807d8d0e25Snbeams //------------------------------------------------------------------------------ 1817d8d0e25Snbeams template <int NCOMP, int COMPSTRIDE, int P1d> 1827d8d0e25Snbeams inline __device__ void readDofsOffset2d(BackendData& data, const CeedInt nnodes, const CeedInt elem, const CeedInt* indices, const CeedScalar* d_u, CeedScalar* r_u) { 1837d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) { 1847d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d; 1857d8d0e25Snbeams const CeedInt ind = indices[node + elem * P1d*P1d]; 1867d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 1877d8d0e25Snbeams r_u[comp] = d_u[ind + COMPSTRIDE * comp]; 1887d8d0e25Snbeams } 1897d8d0e25Snbeams } 1907d8d0e25Snbeams 1917d8d0e25Snbeams //------------------------------------------------------------------------------ 1927d8d0e25Snbeams // L-vector -> E-vector, strided 1937d8d0e25Snbeams //------------------------------------------------------------------------------ 1947d8d0e25Snbeams template <int NCOMP, int P1d, int STRIDES_NODE, int STRIDES_COMP, int STRIDES_ELEM> 1957d8d0e25Snbeams inline __device__ void readDofsStrided2d(BackendData& data, const CeedInt elem, const CeedScalar* d_u, CeedScalar* r_u) { 1967d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) { 1977d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d; 1987d8d0e25Snbeams const CeedInt ind = node * STRIDES_NODE + elem * STRIDES_ELEM; 1997d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 2007d8d0e25Snbeams r_u[comp] = d_u[ind + comp * STRIDES_COMP]; 2017d8d0e25Snbeams } 2027d8d0e25Snbeams } 2037d8d0e25Snbeams 2047d8d0e25Snbeams //------------------------------------------------------------------------------ 2057d8d0e25Snbeams // E-vector -> L-vector, offsets provided 2067d8d0e25Snbeams //------------------------------------------------------------------------------ 2077d8d0e25Snbeams template <int NCOMP, int COMPSTRIDE, int P1d> 2087d8d0e25Snbeams inline __device__ void writeDofsOffset2d(BackendData& data, const CeedInt nnodes, const CeedInt elem, const CeedInt* indices, const CeedScalar* r_v, CeedScalar* d_v) { 2097d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) { 2107d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d; 2117d8d0e25Snbeams const CeedInt ind = indices[node + elem * P1d*P1d]; 2127d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 2137d8d0e25Snbeams atomicAdd(&d_v[ind + COMPSTRIDE * comp], r_v[comp]); 2147d8d0e25Snbeams } 2157d8d0e25Snbeams } 2167d8d0e25Snbeams 2177d8d0e25Snbeams //------------------------------------------------------------------------------ 2187d8d0e25Snbeams // E-vector -> L-vector, strided 2197d8d0e25Snbeams //------------------------------------------------------------------------------ 2207d8d0e25Snbeams template <int NCOMP, int P1d, int STRIDES_NODE, int STRIDES_COMP, int STRIDES_ELEM> 2217d8d0e25Snbeams inline __device__ void writeDofsStrided2d(BackendData& data, const CeedInt elem, const CeedScalar* r_v, CeedScalar* d_v) { 2227d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) { 2237d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d; 2247d8d0e25Snbeams const CeedInt ind = node * STRIDES_NODE + elem * STRIDES_ELEM; 2257d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 2267d8d0e25Snbeams d_v[ind + comp * STRIDES_COMP] += r_v[comp]; 2277d8d0e25Snbeams } 2287d8d0e25Snbeams } 2297d8d0e25Snbeams 2307d8d0e25Snbeams //------------------------------------------------------------------------------ 2317d8d0e25Snbeams // 2D tensor contraction x 2327d8d0e25Snbeams //------------------------------------------------------------------------------ 2337d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 2347d8d0e25Snbeams inline __device__ void ContractX2d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 2357d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = *U; 2367d8d0e25Snbeams __syncthreads(); 2377d8d0e25Snbeams *V = 0.0; 2387d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < P1d) 2397d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 2407d8d0e25Snbeams *V += B[i + data.tidx*P1d] * data.slice[i + data.tidy*T1d]; // Contract x direction 2417d8d0e25Snbeams __syncthreads(); 2427d8d0e25Snbeams } 2437d8d0e25Snbeams 2447d8d0e25Snbeams //------------------------------------------------------------------------------ 2457d8d0e25Snbeams // 2D tensor contract y 2467d8d0e25Snbeams //------------------------------------------------------------------------------ 2477d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 2487d8d0e25Snbeams inline __device__ void ContractY2d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 2497d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = *U; 2507d8d0e25Snbeams __syncthreads(); 2517d8d0e25Snbeams *V = 0.0; 2527d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) 2537d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 2547d8d0e25Snbeams *V += B[i + data.tidy*P1d] * data.slice[data.tidx + i*T1d]; // Contract y direction 2557d8d0e25Snbeams __syncthreads(); 2567d8d0e25Snbeams } 2577d8d0e25Snbeams 2587d8d0e25Snbeams //------------------------------------------------------------------------------ 2597d8d0e25Snbeams // 2D transpose tensor contract y 2607d8d0e25Snbeams //------------------------------------------------------------------------------ 2617d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 2627d8d0e25Snbeams inline __device__ void ContractYTranspose2d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 2637d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = *U; 2647d8d0e25Snbeams __syncthreads(); 2657d8d0e25Snbeams *V = 0.0; 2667d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < P1d) 2677d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 2687d8d0e25Snbeams *V += B[data.tidy + i*P1d] * data.slice[data.tidx + i*T1d]; // Contract y direction 2697d8d0e25Snbeams __syncthreads(); 2707d8d0e25Snbeams } 2717d8d0e25Snbeams 2727d8d0e25Snbeams //------------------------------------------------------------------------------ 2737d8d0e25Snbeams // 2D transpose tensor contract x 2747d8d0e25Snbeams //------------------------------------------------------------------------------ 2757d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 2767d8d0e25Snbeams inline __device__ void ContractXTranspose2d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 2777d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = *U; 2787d8d0e25Snbeams __syncthreads(); 2797d8d0e25Snbeams *V = 0.0; 2807d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 2817d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 2827d8d0e25Snbeams *V += B[data.tidx + i*P1d] * data.slice[i + data.tidy*T1d]; // Contract x direction 2837d8d0e25Snbeams __syncthreads(); 2847d8d0e25Snbeams } 2857d8d0e25Snbeams 2867d8d0e25Snbeams //------------------------------------------------------------------------------ 2877d8d0e25Snbeams // 2D transpose tensor contract and add x 2887d8d0e25Snbeams //------------------------------------------------------------------------------ 2897d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 2907d8d0e25Snbeams inline __device__ void ContractXTransposeAdd2d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 2917d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = *U; 2927d8d0e25Snbeams __syncthreads(); 2937d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 2947d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 2957d8d0e25Snbeams *V += B[data.tidx + i*P1d] * data.slice[i + data.tidy*T1d]; // Contract x direction 2967d8d0e25Snbeams __syncthreads(); 2977d8d0e25Snbeams } 2987d8d0e25Snbeams 2997d8d0e25Snbeams //------------------------------------------------------------------------------ 3007d8d0e25Snbeams // 2D interpolate to quadrature points 3017d8d0e25Snbeams //------------------------------------------------------------------------------ 3027d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 3037d8d0e25Snbeams inline __device__ void interp2d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, CeedScalar *__restrict__ r_V) { 3047d8d0e25Snbeams CeedScalar r_t[1]; 3057d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 3067d8d0e25Snbeams ContractX2d<NCOMP, P1d, Q1d>(data, r_U + comp, c_B, r_t); 3077d8d0e25Snbeams ContractY2d<NCOMP, P1d, Q1d>(data, r_t, c_B, r_V + comp); 3087d8d0e25Snbeams } 3097d8d0e25Snbeams } 3107d8d0e25Snbeams 3117d8d0e25Snbeams //------------------------------------------------------------------------------ 3127d8d0e25Snbeams // 2D interpolate transpose 3137d8d0e25Snbeams //------------------------------------------------------------------------------ 3147d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 3157d8d0e25Snbeams inline __device__ void interpTranspose2d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, CeedScalar *__restrict__ r_V) { 3167d8d0e25Snbeams CeedScalar r_t[1]; 3177d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 3187d8d0e25Snbeams ContractYTranspose2d<NCOMP, P1d, Q1d>(data, r_U + comp, c_B, r_t); 3197d8d0e25Snbeams ContractXTranspose2d<NCOMP, P1d, Q1d>(data, r_t, c_B, r_V + comp); 3207d8d0e25Snbeams } 3217d8d0e25Snbeams } 3227d8d0e25Snbeams 3237d8d0e25Snbeams //------------------------------------------------------------------------------ 3247d8d0e25Snbeams // 2D derivatives at quadrature points 3257d8d0e25Snbeams //------------------------------------------------------------------------------ 3267d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 3277d8d0e25Snbeams inline __device__ void grad2d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 3287d8d0e25Snbeams CeedScalar r_t[1]; 3297d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 3307d8d0e25Snbeams ContractX2d<NCOMP, P1d, Q1d>(data, r_U + comp, c_G, r_t); 3317d8d0e25Snbeams ContractY2d<NCOMP, P1d, Q1d>(data, r_t, c_B, r_V + comp + 0*NCOMP); 3327d8d0e25Snbeams ContractX2d<NCOMP, P1d, Q1d>(data, r_U + comp, c_B, r_t); 3337d8d0e25Snbeams ContractY2d<NCOMP, P1d, Q1d>(data, r_t, c_G, r_V + comp + 1*NCOMP); 3347d8d0e25Snbeams } 3357d8d0e25Snbeams } 3367d8d0e25Snbeams 3377d8d0e25Snbeams //------------------------------------------------------------------------------ 3387d8d0e25Snbeams // 2D derivatives transpose 3397d8d0e25Snbeams //------------------------------------------------------------------------------ 3407d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 3417d8d0e25Snbeams inline __device__ void gradTranspose2d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 3427d8d0e25Snbeams CeedScalar r_t[1]; 3437d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 3447d8d0e25Snbeams ContractYTranspose2d<NCOMP, P1d, Q1d>(data, r_U + comp + 0*NCOMP, c_B, r_t); 3457d8d0e25Snbeams ContractXTranspose2d<NCOMP, P1d, Q1d>(data, r_t, c_G, r_V + comp); 3467d8d0e25Snbeams ContractYTranspose2d<NCOMP, P1d, Q1d>(data, r_U + comp + 1*NCOMP, c_G, r_t); 3477d8d0e25Snbeams ContractXTransposeAdd2d<NCOMP, P1d, Q1d>(data, r_t, c_B, r_V + comp); 3487d8d0e25Snbeams } 3497d8d0e25Snbeams } 3507d8d0e25Snbeams 3517d8d0e25Snbeams //------------------------------------------------------------------------------ 3527d8d0e25Snbeams // 3D 3537d8d0e25Snbeams //------------------------------------------------------------------------------ 3547d8d0e25Snbeams 3557d8d0e25Snbeams //------------------------------------------------------------------------------ 3567d8d0e25Snbeams // L-vector -> E-vector, offsets provided 3577d8d0e25Snbeams //------------------------------------------------------------------------------ 3587d8d0e25Snbeams template <int NCOMP, int COMPSTRIDE, int P1d> 3597d8d0e25Snbeams inline __device__ void readDofsOffset3d(BackendData& data, const CeedInt nnodes, const CeedInt elem, const CeedInt* indices, const CeedScalar* d_u, CeedScalar* r_u) { 3607d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 3617d8d0e25Snbeams for (CeedInt z = 0; z < P1d; ++z) { 3627d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d + z*P1d*P1d; 3637d8d0e25Snbeams const CeedInt ind = indices[node + elem * P1d*P1d*P1d]; 3647d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 3657d8d0e25Snbeams r_u[z+comp*P1d] = d_u[ind + COMPSTRIDE * comp]; 3667d8d0e25Snbeams } 3677d8d0e25Snbeams } 3687d8d0e25Snbeams 3697d8d0e25Snbeams //------------------------------------------------------------------------------ 3707d8d0e25Snbeams // L-vector -> E-vector, strided 3717d8d0e25Snbeams //------------------------------------------------------------------------------ 3727d8d0e25Snbeams template <int NCOMP, int P1d, int STRIDES_NODE, int STRIDES_COMP, int STRIDES_ELEM> 3737d8d0e25Snbeams inline __device__ void readDofsStrided3d(BackendData& data, const CeedInt elem, const CeedScalar* d_u, CeedScalar* r_u) { 3747d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 3757d8d0e25Snbeams for (CeedInt z = 0; z < P1d; ++z) { 3767d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d + z*P1d*P1d; 3777d8d0e25Snbeams const CeedInt ind = node * STRIDES_NODE + elem * STRIDES_ELEM; 3787d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 3797d8d0e25Snbeams r_u[z+comp*P1d] = d_u[ind + comp * STRIDES_COMP]; 3807d8d0e25Snbeams } 3817d8d0e25Snbeams } 3827d8d0e25Snbeams 3837d8d0e25Snbeams //------------------------------------------------------------------------------ 3847d8d0e25Snbeams // E-vector -> Q-vector, offests provided 3857d8d0e25Snbeams //------------------------------------------------------------------------------ 3867d8d0e25Snbeams template <int NCOMP, int COMPSTRIDE, int Q1d> 3877d8d0e25Snbeams inline __device__ void readSliceQuadsOffset3d(BackendData& data, const CeedInt nquads, const CeedInt elem, const CeedInt q, const CeedInt* indices, const CeedScalar* d_u, CeedScalar* r_u) { 3887d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) { 3897d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*Q1d + q*Q1d*Q1d; 3907d8d0e25Snbeams const CeedInt ind = indices[node + elem * Q1d*Q1d*Q1d];; 3917d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 3927d8d0e25Snbeams r_u[comp] = d_u[ind + COMPSTRIDE * comp]; 3937d8d0e25Snbeams } 3947d8d0e25Snbeams } 3957d8d0e25Snbeams 3967d8d0e25Snbeams //------------------------------------------------------------------------------ 3977d8d0e25Snbeams // E-vector -> Q-vector, strided 3987d8d0e25Snbeams //------------------------------------------------------------------------------ 3997d8d0e25Snbeams template <int NCOMP, int Q1d, int STRIDES_NODE, int STRIDES_COMP, int STRIDES_ELEM> 4007d8d0e25Snbeams inline __device__ void readSliceQuadsStrided3d(BackendData& data, const CeedInt elem, const CeedInt q, const CeedScalar* d_u, CeedScalar* r_u) { 4017d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) { 4027d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*Q1d + q*Q1d*Q1d; 4037d8d0e25Snbeams const CeedInt ind = node * STRIDES_NODE + elem * STRIDES_ELEM; 4047d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 4057d8d0e25Snbeams r_u[comp] = d_u[ind + comp * STRIDES_COMP]; 4067d8d0e25Snbeams } 4077d8d0e25Snbeams } 4087d8d0e25Snbeams 4097d8d0e25Snbeams //------------------------------------------------------------------------------ 4107d8d0e25Snbeams // E-vector -> L-vector, offsets provided 4117d8d0e25Snbeams //------------------------------------------------------------------------------ 4127d8d0e25Snbeams template <int NCOMP, int COMPSTRIDE, int P1d> 4137d8d0e25Snbeams inline __device__ void writeDofsOffset3d(BackendData& data, const CeedInt nnodes, const CeedInt elem, const CeedInt* indices, const CeedScalar* r_v, CeedScalar* d_v) { 4147d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 4157d8d0e25Snbeams for (CeedInt z = 0; z < P1d; ++z) { 4167d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d + z*P1d*P1d; 4177d8d0e25Snbeams const CeedInt ind = indices[node + elem * P1d*P1d*P1d]; 4187d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 4197d8d0e25Snbeams atomicAdd(&d_v[ind + COMPSTRIDE * comp], r_v[z+comp*P1d]); 4207d8d0e25Snbeams } 4217d8d0e25Snbeams } 4227d8d0e25Snbeams 4237d8d0e25Snbeams //------------------------------------------------------------------------------ 4247d8d0e25Snbeams // E-vector -> L-vector, strided 4257d8d0e25Snbeams //------------------------------------------------------------------------------ 4267d8d0e25Snbeams template <int NCOMP, int P1d, int STRIDES_NODE, int STRIDES_COMP, int STRIDES_ELEM> 4277d8d0e25Snbeams inline __device__ void writeDofsStrided3d(BackendData& data, const CeedInt elem, const CeedScalar* r_v, CeedScalar* d_v) { 4287d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 4297d8d0e25Snbeams for (CeedInt z = 0; z < P1d; ++z) { 4307d8d0e25Snbeams const CeedInt node = data.tidx + data.tidy*P1d + z*P1d*P1d; 4317d8d0e25Snbeams const CeedInt ind = node * STRIDES_NODE + elem * STRIDES_ELEM; 4327d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) 4337d8d0e25Snbeams d_v[ind + comp * STRIDES_COMP] += r_v[z+comp*P1d]; 4347d8d0e25Snbeams } 4357d8d0e25Snbeams } 4367d8d0e25Snbeams 4377d8d0e25Snbeams //------------------------------------------------------------------------------ 4387d8d0e25Snbeams // 3D tensor contract x 4397d8d0e25Snbeams //------------------------------------------------------------------------------ 4407d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 4417d8d0e25Snbeams inline __device__ void ContractX3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 4427d8d0e25Snbeams CeedScalar r_B[P1d]; 4437d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 4447d8d0e25Snbeams r_B[i] = B[i + data.tidx*P1d]; 4457d8d0e25Snbeams 4467d8d0e25Snbeams for (CeedInt k = 0; k < P1d; ++k) { 4477d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = U[k]; 4487d8d0e25Snbeams __syncthreads(); 4497d8d0e25Snbeams V[k] = 0.0; 4507d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < P1d) 4517d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 4527d8d0e25Snbeams V[k] += r_B[i] * data.slice[i + data.tidy*T1d]; // Contract x direction 4537d8d0e25Snbeams __syncthreads(); 4547d8d0e25Snbeams } 4557d8d0e25Snbeams } 4567d8d0e25Snbeams 4577d8d0e25Snbeams //------------------------------------------------------------------------------ 4587d8d0e25Snbeams // 3D tensor contract y 4597d8d0e25Snbeams //------------------------------------------------------------------------------ 4607d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 4617d8d0e25Snbeams inline __device__ void ContractY3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 4627d8d0e25Snbeams CeedScalar r_B[P1d]; 4637d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 4647d8d0e25Snbeams r_B[i] = B[i + data.tidy*P1d]; 4657d8d0e25Snbeams 4667d8d0e25Snbeams for (CeedInt k = 0; k < P1d; ++k) { 4677d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = U[k]; 4687d8d0e25Snbeams __syncthreads(); 4697d8d0e25Snbeams V[k] = 0.0; 4707d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) 4717d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 4727d8d0e25Snbeams V[k] += r_B[i] * data.slice[data.tidx + i*T1d]; // Contract y direction 4737d8d0e25Snbeams __syncthreads(); 4747d8d0e25Snbeams } 4757d8d0e25Snbeams } 4767d8d0e25Snbeams 4777d8d0e25Snbeams //------------------------------------------------------------------------------ 4787d8d0e25Snbeams // 3D tensor contract z 4797d8d0e25Snbeams //------------------------------------------------------------------------------ 4807d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 4817d8d0e25Snbeams inline __device__ void ContractZ3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 4827d8d0e25Snbeams for (CeedInt k = 0; k < Q1d; ++k) { 4837d8d0e25Snbeams V[k] = 0.0; 4847d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) 4857d8d0e25Snbeams for (CeedInt i = 0; i < P1d; ++i) 4867d8d0e25Snbeams V[k] += B[i + k*P1d] * U[i]; // Contract z direction 4877d8d0e25Snbeams } 4887d8d0e25Snbeams } 4897d8d0e25Snbeams 4907d8d0e25Snbeams //------------------------------------------------------------------------------ 4917d8d0e25Snbeams // 3D transpose tensor contract z 4927d8d0e25Snbeams //------------------------------------------------------------------------------ 4937d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 4947d8d0e25Snbeams inline __device__ void ContractTransposeZ3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 4957d8d0e25Snbeams for (CeedInt k = 0; k < P1d; ++k) { 4967d8d0e25Snbeams V[k] = 0.0; 4977d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) 4987d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 4997d8d0e25Snbeams V[k] += B[k + i*P1d] * U[i]; // Contract z direction 5007d8d0e25Snbeams } 5017d8d0e25Snbeams } 5027d8d0e25Snbeams 5037d8d0e25Snbeams //------------------------------------------------------------------------------ 5047d8d0e25Snbeams // 3D transpose tensor contract y 5057d8d0e25Snbeams //------------------------------------------------------------------------------ 5067d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 5077d8d0e25Snbeams inline __device__ void ContractTransposeY3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 5087d8d0e25Snbeams CeedScalar r_B[Q1d]; 5097d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5107d8d0e25Snbeams r_B[i] = B[data.tidy + i*P1d]; 5117d8d0e25Snbeams 5127d8d0e25Snbeams for (CeedInt k = 0; k < P1d; ++k) { 5137d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = U[k]; 5147d8d0e25Snbeams __syncthreads(); 5157d8d0e25Snbeams V[k] = 0.0; 5167d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < P1d) 5177d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5187d8d0e25Snbeams V[k] += r_B[i] * data.slice[data.tidx + i*T1d]; // Contract y direction 5197d8d0e25Snbeams __syncthreads(); 5207d8d0e25Snbeams } 5217d8d0e25Snbeams } 5227d8d0e25Snbeams 5237d8d0e25Snbeams //------------------------------------------------------------------------------ 5247d8d0e25Snbeams // 3D transpose tensor contract add y 5257d8d0e25Snbeams //------------------------------------------------------------------------------ 5267d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 5277d8d0e25Snbeams inline __device__ void ContractTransposeAddY3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 5287d8d0e25Snbeams CeedScalar r_B[Q1d]; 5297d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5307d8d0e25Snbeams r_B[i] = B[data.tidy + i*P1d]; 5317d8d0e25Snbeams 5327d8d0e25Snbeams for (CeedInt k = 0; k < P1d; ++k) { 5337d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = U[k]; 5347d8d0e25Snbeams __syncthreads(); 5357d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < P1d) 5367d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5377d8d0e25Snbeams V[k] += r_B[i] * data.slice[data.tidx + i*T1d]; // Contract y direction 5387d8d0e25Snbeams __syncthreads(); 5397d8d0e25Snbeams } 5407d8d0e25Snbeams } 5417d8d0e25Snbeams 5427d8d0e25Snbeams //------------------------------------------------------------------------------ 5437d8d0e25Snbeams // 3D transpose tensor contract x 5447d8d0e25Snbeams //------------------------------------------------------------------------------ 5457d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 5467d8d0e25Snbeams inline __device__ void ContractTransposeX3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 5477d8d0e25Snbeams CeedScalar r_B[Q1d]; 5487d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5497d8d0e25Snbeams r_B[i] = B[data.tidx + i*P1d]; 5507d8d0e25Snbeams 5517d8d0e25Snbeams for (CeedInt k = 0; k < P1d; ++k) { 5527d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = U[k]; 5537d8d0e25Snbeams __syncthreads(); 5547d8d0e25Snbeams V[k] = 0.0; 5557d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 5567d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5577d8d0e25Snbeams V[k] += r_B[i] * data.slice[i + data.tidy*T1d]; // Contract x direction 5587d8d0e25Snbeams __syncthreads(); 5597d8d0e25Snbeams } 5607d8d0e25Snbeams } 5617d8d0e25Snbeams 5627d8d0e25Snbeams //------------------------------------------------------------------------------ 5637d8d0e25Snbeams // 3D transpose tensor contract add x 5647d8d0e25Snbeams //------------------------------------------------------------------------------ 5657d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 5667d8d0e25Snbeams inline __device__ void ContractTransposeAddX3d(BackendData& data, const CeedScalar *U, const CeedScalar *B, CeedScalar *V) { 5677d8d0e25Snbeams CeedScalar r_B[Q1d]; 5687d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5697d8d0e25Snbeams r_B[i] = B[data.tidx + i*P1d]; 5707d8d0e25Snbeams 5717d8d0e25Snbeams for (CeedInt k = 0; k < P1d; ++k) { 5727d8d0e25Snbeams data.slice[data.tidx+data.tidy*T1d] = U[k]; 5737d8d0e25Snbeams __syncthreads(); 5747d8d0e25Snbeams if (data.tidx < P1d && data.tidy < P1d) 5757d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 5767d8d0e25Snbeams V[k] += r_B[i] * data.slice[i + data.tidy*T1d]; // Contract x direction 5777d8d0e25Snbeams __syncthreads(); 5787d8d0e25Snbeams } 5797d8d0e25Snbeams } 5807d8d0e25Snbeams 5817d8d0e25Snbeams //------------------------------------------------------------------------------ 5827d8d0e25Snbeams // 3D interpolate to quadrature points 5837d8d0e25Snbeams //------------------------------------------------------------------------------ 5847d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 5857d8d0e25Snbeams inline __device__ void interp3d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, CeedScalar *__restrict__ r_V) { 5867d8d0e25Snbeams CeedScalar r_t1[T1d]; 5877d8d0e25Snbeams CeedScalar r_t2[T1d]; 5887d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 5897d8d0e25Snbeams ContractX3d<NCOMP, P1d, Q1d>(data, r_U + comp*P1d, c_B, r_t1); 5907d8d0e25Snbeams ContractY3d<NCOMP, P1d, Q1d>(data, r_t1, c_B, r_t2); 5917d8d0e25Snbeams ContractZ3d<NCOMP, P1d, Q1d>(data, r_t2, c_B, r_V + comp*Q1d); 5927d8d0e25Snbeams } 5937d8d0e25Snbeams } 5947d8d0e25Snbeams 5957d8d0e25Snbeams //------------------------------------------------------------------------------ 5967d8d0e25Snbeams // 3D interpolate transpose 5977d8d0e25Snbeams //------------------------------------------------------------------------------ 5987d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 5997d8d0e25Snbeams inline __device__ void interpTranspose3d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, CeedScalar *__restrict__ r_V) { 6007d8d0e25Snbeams CeedScalar r_t1[T1d]; 6017d8d0e25Snbeams CeedScalar r_t2[T1d]; 6027d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 6037d8d0e25Snbeams ContractTransposeZ3d<NCOMP, P1d, Q1d>(data, r_U + comp*Q1d, c_B, r_t1); 6047d8d0e25Snbeams ContractTransposeY3d<NCOMP, P1d, Q1d>(data, r_t1, c_B, r_t2); 6057d8d0e25Snbeams ContractTransposeX3d<NCOMP, P1d, Q1d>(data, r_t2, c_B, r_V + comp*P1d); 6067d8d0e25Snbeams } 6077d8d0e25Snbeams } 6087d8d0e25Snbeams 6097d8d0e25Snbeams //------------------------------------------------------------------------------ 6107d8d0e25Snbeams // 3D derivatives at quadrature points 6117d8d0e25Snbeams //------------------------------------------------------------------------------ 6127d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 6137d8d0e25Snbeams inline __device__ void grad3d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 6147d8d0e25Snbeams CeedScalar r_t1[T1d]; 6157d8d0e25Snbeams CeedScalar r_t2[T1d]; 6167d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 6177d8d0e25Snbeams ContractX3d<NCOMP, P1d, Q1d>(data, r_U + comp*P1d, c_G, r_t1); 6187d8d0e25Snbeams ContractY3d<NCOMP, P1d, Q1d>(data, r_t1, c_B, r_t2); 6197d8d0e25Snbeams ContractZ3d<NCOMP, P1d, Q1d>(data, r_t2, c_B, r_V + comp*Q1d + 0*NCOMP*Q1d); 6207d8d0e25Snbeams ContractX3d<NCOMP, P1d, Q1d>(data, r_U + comp*P1d, c_B, r_t1); 6217d8d0e25Snbeams ContractY3d<NCOMP, P1d, Q1d>(data, r_t1, c_G, r_t2); 6227d8d0e25Snbeams ContractZ3d<NCOMP, P1d, Q1d>(data, r_t2, c_B, r_V + comp*Q1d + 1*NCOMP*Q1d); 6237d8d0e25Snbeams ContractX3d<NCOMP, P1d, Q1d>(data, r_U + comp*P1d, c_B, r_t1); 6247d8d0e25Snbeams ContractY3d<NCOMP, P1d, Q1d>(data, r_t1, c_B, r_t2); 6257d8d0e25Snbeams ContractZ3d<NCOMP, P1d, Q1d>(data, r_t2, c_G, r_V + comp*Q1d + 2*NCOMP*Q1d); 6267d8d0e25Snbeams } 6277d8d0e25Snbeams } 6287d8d0e25Snbeams 6297d8d0e25Snbeams //------------------------------------------------------------------------------ 6307d8d0e25Snbeams // 3D derivatives transpose 6317d8d0e25Snbeams //------------------------------------------------------------------------------ 6327d8d0e25Snbeams template <int NCOMP, int P1d, int Q1d> 6337d8d0e25Snbeams inline __device__ void gradTranspose3d(BackendData& data, const CeedScalar *__restrict__ r_U, const CeedScalar *c_B, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 6347d8d0e25Snbeams CeedScalar r_t1[T1d]; 6357d8d0e25Snbeams CeedScalar r_t2[T1d]; 6367d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; comp++) { 6377d8d0e25Snbeams ContractTransposeZ3d<NCOMP, P1d, Q1d>(data, r_U + comp*Q1d + 0*NCOMP*Q1d, c_B, r_t1); 6387d8d0e25Snbeams ContractTransposeY3d<NCOMP, P1d, Q1d>(data, r_t1, c_B, r_t2); 6397d8d0e25Snbeams ContractTransposeX3d<NCOMP, P1d, Q1d>(data, r_t2, c_G, r_V + comp*P1d); 6407d8d0e25Snbeams ContractTransposeZ3d<NCOMP, P1d, Q1d>(data, r_U + comp*Q1d + 1*NCOMP*Q1d, c_B, r_t1); 6417d8d0e25Snbeams ContractTransposeY3d<NCOMP, P1d, Q1d>(data, r_t1, c_G, r_t2); 6427d8d0e25Snbeams ContractTransposeAddX3d<NCOMP,P1d, Q1d>(data, r_t2, c_B, r_V + comp*P1d); 6437d8d0e25Snbeams ContractTransposeZ3d<NCOMP, P1d, Q1d>(data, r_U + comp*Q1d + 2*NCOMP*Q1d, c_G, r_t1); 6447d8d0e25Snbeams ContractTransposeY3d<NCOMP, P1d, Q1d>(data, r_t1, c_B, r_t2); 6457d8d0e25Snbeams ContractTransposeAddX3d<NCOMP, P1d, Q1d>(data, r_t2, c_B, r_V + comp*P1d); 6467d8d0e25Snbeams } 6477d8d0e25Snbeams } 6487d8d0e25Snbeams 6497d8d0e25Snbeams //------------------------------------------------------------------------------ 6507d8d0e25Snbeams // 3D collocated derivatives computation 6517d8d0e25Snbeams //------------------------------------------------------------------------------ 6527d8d0e25Snbeams template <int NCOMP, int Q1d> 6537d8d0e25Snbeams inline __device__ void gradCollo3d(BackendData& data, const CeedInt q, const CeedScalar *__restrict__ r_U, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 6547d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) { 6557d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) { 6567d8d0e25Snbeams data.slice[data.tidx + data.tidy*T1d] = r_U[q + comp*Q1d]; 6577d8d0e25Snbeams __syncthreads(); 6587d8d0e25Snbeams // X derivative 6597d8d0e25Snbeams r_V[comp+0*NCOMP] = 0.0; 6607d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 6617d8d0e25Snbeams r_V[comp+0*NCOMP] += c_G[i + data.tidx*Q1d] * data.slice[i + data.tidy*T1d]; // Contract x direction (X derivative) 6627d8d0e25Snbeams // Y derivative 6637d8d0e25Snbeams r_V[comp+1*NCOMP] = 0.0; 6647d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 6657d8d0e25Snbeams r_V[comp+1*NCOMP] += c_G[i + data.tidy*Q1d] * data.slice[data.tidx + i*T1d]; // Contract y direction (Y derivative) 6667d8d0e25Snbeams // Z derivative 6677d8d0e25Snbeams r_V[comp+2*NCOMP] = 0.0; 6687d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 6697d8d0e25Snbeams r_V[comp+2*NCOMP] += c_G[i + q*Q1d] * r_U[i + comp*Q1d]; // Contract z direction (Z derivative) 6707d8d0e25Snbeams __syncthreads(); 6717d8d0e25Snbeams } 6727d8d0e25Snbeams } 6737d8d0e25Snbeams } 6747d8d0e25Snbeams 6757d8d0e25Snbeams //------------------------------------------------------------------------------ 6767d8d0e25Snbeams // 3D collocated derivatives transpose 6777d8d0e25Snbeams //------------------------------------------------------------------------------ 6787d8d0e25Snbeams template <int NCOMP, int Q1d> 6797d8d0e25Snbeams inline __device__ void gradColloTranspose3d(BackendData& data, const CeedInt q, const CeedScalar *__restrict__ r_U, const CeedScalar *c_G, CeedScalar *__restrict__ r_V) { 6807d8d0e25Snbeams if (data.tidx < Q1d && data.tidy < Q1d) { 6817d8d0e25Snbeams for (CeedInt comp = 0; comp < NCOMP; ++comp) { 6827d8d0e25Snbeams // X derivative 6837d8d0e25Snbeams data.slice[data.tidx + data.tidy*T1d] = r_U[comp + 0*NCOMP]; 6847d8d0e25Snbeams __syncthreads(); 6857d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 6867d8d0e25Snbeams r_V[q+comp*Q1d] += c_G[data.tidx + i*Q1d] * data.slice[i + data.tidy*T1d]; // Contract x direction (X derivative) 6877d8d0e25Snbeams __syncthreads(); 6887d8d0e25Snbeams // Y derivative 6897d8d0e25Snbeams data.slice[data.tidx + data.tidy*T1d] = r_U[comp + 1*NCOMP]; 6907d8d0e25Snbeams __syncthreads(); 6917d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 6927d8d0e25Snbeams r_V[q+comp*Q1d] += c_G[data.tidy + i*Q1d] * data.slice[data.tidx + i*T1d]; // Contract y direction (Y derivative) 6937d8d0e25Snbeams __syncthreads(); 6947d8d0e25Snbeams // Z derivative 6957d8d0e25Snbeams for (CeedInt i = 0; i < Q1d; ++i) 6967d8d0e25Snbeams r_V[i+comp*Q1d] += c_G[i + q*Q1d] * r_U[comp + 2*NCOMP]; // PARTIAL contract z direction (Z derivative) 6977d8d0e25Snbeams } 6987d8d0e25Snbeams } 6997d8d0e25Snbeams } 7007d8d0e25Snbeams 7017d8d0e25Snbeams //------------------------------------------------------------------------------ 7027d8d0e25Snbeams // 1D quadrature weights 7037d8d0e25Snbeams //------------------------------------------------------------------------------ 7047d8d0e25Snbeams template <int Q1d> 7057d8d0e25Snbeams inline __device__ void weight1d(BackendData& data, const CeedScalar *qweight1d, CeedScalar *w) { 7067d8d0e25Snbeams *w = (data.tidx < Q1d) ? qweight1d[data.tidx] : 0.0; 7077d8d0e25Snbeams } 7087d8d0e25Snbeams 7097d8d0e25Snbeams //------------------------------------------------------------------------------ 7107d8d0e25Snbeams // 2D quadrature weights 7117d8d0e25Snbeams //------------------------------------------------------------------------------ 7127d8d0e25Snbeams template <int Q1d> 7137d8d0e25Snbeams inline __device__ void weight2d(BackendData& data, const CeedScalar *qweight1d, CeedScalar *w) { 7147d8d0e25Snbeams *w = (data.tidx < Q1d && data.tidy < Q1d) ? 7157d8d0e25Snbeams qweight1d[data.tidx]*qweight1d[data.tidy] : 0.0; 7167d8d0e25Snbeams } 7177d8d0e25Snbeams 7187d8d0e25Snbeams //------------------------------------------------------------------------------ 7197d8d0e25Snbeams // 3D quadrature weights 7207d8d0e25Snbeams //------------------------------------------------------------------------------ 7217d8d0e25Snbeams template <int Q1d> 7227d8d0e25Snbeams inline __device__ void weight3d(BackendData& data, const CeedScalar *qweight1d, CeedScalar *w) { 7237d8d0e25Snbeams const bool quad = (data.tidx < Q1d && data.tidy < Q1d); 7247d8d0e25Snbeams const CeedScalar pw = quad ? qweight1d[data.tidx]*qweight1d[data.tidy] : 0.0; 7257d8d0e25Snbeams for (CeedInt z = 0; z < Q1d; ++z) 7267d8d0e25Snbeams w[z] = quad ? pw*qweight1d[z] : 0.0; 7277d8d0e25Snbeams } 7287d8d0e25Snbeams 7297d8d0e25Snbeams ); 7307d8d0e25Snbeams //------------------------------------------------------------------------------ 7317d8d0e25Snbeams // Build singe operator kernel 7327d8d0e25Snbeams //------------------------------------------------------------------------------ 733680aa83fSnbeams CEED_INTERN int CeedHipGenOperatorBuild(CeedOperator op) { 7347d8d0e25Snbeams 7357d8d0e25Snbeams using std::ostringstream; 7367d8d0e25Snbeams using std::string; 7377d8d0e25Snbeams int ierr; 7387d8d0e25Snbeams bool setupdone; 739e15f9bd0SJeremy L Thompson ierr = CeedOperatorIsSetupDone(op, &setupdone); CeedChkBackend(ierr); 740e15f9bd0SJeremy L Thompson if (setupdone) return CEED_ERROR_SUCCESS; 7417d8d0e25Snbeams Ceed ceed; 742e15f9bd0SJeremy L Thompson ierr = CeedOperatorGetCeed(op, &ceed); CeedChkBackend(ierr); 7437d8d0e25Snbeams CeedOperator_Hip_gen *data; 744e15f9bd0SJeremy L Thompson ierr = CeedOperatorGetData(op, &data); CeedChkBackend(ierr); 7457d8d0e25Snbeams CeedQFunction qf; 7467d8d0e25Snbeams CeedQFunction_Hip_gen *qf_data; 747e15f9bd0SJeremy L Thompson ierr = CeedOperatorGetQFunction(op, &qf); CeedChkBackend(ierr); 748e15f9bd0SJeremy L Thompson ierr = CeedQFunctionGetData(qf, &qf_data); CeedChkBackend(ierr); 74978464608Sjeremylt CeedInt Q, P1d = 0, Q1d = 0, numelements, elemsize, numinputfields, 7507d8d0e25Snbeams numoutputfields, ncomp, dim = 0, lsize; 751e15f9bd0SJeremy L Thompson ierr = CeedOperatorGetNumQuadraturePoints(op, &Q); CeedChkBackend(ierr); 752e15f9bd0SJeremy L Thompson ierr = CeedOperatorGetNumElements(op, &numelements); CeedChkBackend(ierr); 7537d8d0e25Snbeams ierr = CeedQFunctionGetNumArgs(qf, &numinputfields, &numoutputfields); 754e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 7557d8d0e25Snbeams CeedOperatorField *opinputfields, *opoutputfields; 7567d8d0e25Snbeams ierr = CeedOperatorGetFields(op, &opinputfields, &opoutputfields); 757e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 7587d8d0e25Snbeams CeedQFunctionField *qfinputfields, *qfoutputfields; 7597d8d0e25Snbeams ierr = CeedQFunctionGetFields(qf, &qfinputfields, &qfoutputfields); 760e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 7617d8d0e25Snbeams CeedEvalMode emode; 7627d8d0e25Snbeams CeedBasis basis; 7637d8d0e25Snbeams CeedBasis_Hip_shared *basis_data; 7647d8d0e25Snbeams CeedElemRestriction Erestrict; 7657d8d0e25Snbeams CeedElemRestriction_Hip *restr_data; 7667d8d0e25Snbeams 767*0b454692Sjeremylt // Check for restriction only identity operator 768*0b454692Sjeremylt bool is_identity_qf; 769*0b454692Sjeremylt ierr = CeedQFunctionIsIdentity(qf, &is_identity_qf); CeedChkBackend(ierr); 770*0b454692Sjeremylt if (is_identity_qf) { 771*0b454692Sjeremylt CeedEvalMode emodein, emodeout; 772*0b454692Sjeremylt ierr = CeedQFunctionFieldGetEvalMode(qfinputfields[0], &emodein); CeedChkBackend(ierr); 773*0b454692Sjeremylt ierr = CeedQFunctionFieldGetEvalMode(qfoutputfields[0], &emodeout); CeedChkBackend(ierr); 774*0b454692Sjeremylt if (emodein == CEED_EVAL_NONE && emodeout == CEED_EVAL_NONE) 775*0b454692Sjeremylt // LCOV_EXCL_START 776*0b454692Sjeremylt return CeedError(ceed, CEED_ERROR_BACKEND, 777*0b454692Sjeremylt "Backend does not implement restriction only identity operators"); 778*0b454692Sjeremylt // LCOV_EXCL_STOP 779*0b454692Sjeremylt } 780*0b454692Sjeremylt 7817d8d0e25Snbeams ostringstream code; 7827d8d0e25Snbeams string devFunctions(deviceFunctions); 7837d8d0e25Snbeams code << devFunctions; 7847d8d0e25Snbeams 7857d8d0e25Snbeams string qFunction(qf_data->qFunctionSource); 7867d8d0e25Snbeams string qFunctionName(qf_data->qFunctionName); 7877d8d0e25Snbeams string oper; 7887d8d0e25Snbeams oper = "CeedKernel_Hip_gen_" + qFunctionName; 7897d8d0e25Snbeams 7907d8d0e25Snbeams code << "\n#define CEED_QFUNCTION(name) inline __device__ int name\n"; 791e15f9bd0SJeremy L Thompson code << "#define CeedPragmaSIMD\n"; 792e15f9bd0SJeremy L Thompson code << "#define CEED_ERROR_SUCCESS 0\n\n"; 7937d8d0e25Snbeams 7947d8d0e25Snbeams // Find dim and Q1d 7957d8d0e25Snbeams bool useCollograd = true; 7967d8d0e25Snbeams data->maxP1d = 0; 7977d8d0e25Snbeams for (CeedInt i = 0; i < numinputfields; i++) { 798e15f9bd0SJeremy L Thompson ierr = CeedOperatorFieldGetBasis(opinputfields[i], &basis); CeedChkBackend(ierr); 7997d8d0e25Snbeams if (basis != CEED_BASIS_COLLOCATED) { 800e15f9bd0SJeremy L Thompson ierr = CeedBasisGetData(basis, &basis_data); CeedChkBackend(ierr); 8017d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfinputfields[i], &emode); 802e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 8037d8d0e25Snbeams 8047d8d0e25Snbeams // Check for collocated gradient 8057d8d0e25Snbeams useCollograd = useCollograd && basis_data->d_collograd1d; 8067d8d0e25Snbeams 8077d8d0e25Snbeams // Collect dim and Q1d 808e15f9bd0SJeremy L Thompson ierr = CeedBasisGetDimension(basis, &dim); CeedChkBackend(ierr); 8097d8d0e25Snbeams bool isTensor; 810e15f9bd0SJeremy L Thompson ierr = CeedBasisIsTensor(basis, &isTensor); CeedChkBackend(ierr); 8117d8d0e25Snbeams if (isTensor) { 812e15f9bd0SJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints1D(basis, &Q1d); CeedChkBackend(ierr); 813e15f9bd0SJeremy L Thompson ierr = CeedBasisGetNumNodes1D(basis, &P1d); CeedChkBackend(ierr); 8147d8d0e25Snbeams if (P1d>data->maxP1d) data->maxP1d = P1d; 8157d8d0e25Snbeams } else { 8167d8d0e25Snbeams // LCOV_EXCL_START 817e15f9bd0SJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, "Backend does not implement operators with non-tensor basis"); 8187d8d0e25Snbeams // LCOV_EXCL_STOP 8197d8d0e25Snbeams } 8207d8d0e25Snbeams } 8217d8d0e25Snbeams } 8227d8d0e25Snbeams // Check output bases for Q1d, dim as well 8237d8d0e25Snbeams // The only imput basis might be CEED_BASIS_COLLOCATED 8247d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 825e15f9bd0SJeremy L Thompson ierr = CeedOperatorFieldGetBasis(opoutputfields[i], &basis); CeedChkBackend(ierr); 8267d8d0e25Snbeams 8277d8d0e25Snbeams if (basis != CEED_BASIS_COLLOCATED) { 828e15f9bd0SJeremy L Thompson ierr = CeedBasisGetData(basis, &basis_data); CeedChkBackend(ierr); 8297d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfoutputfields[i], &emode); 830e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 8317d8d0e25Snbeams 8327d8d0e25Snbeams // Collect dim and Q1d 833e15f9bd0SJeremy L Thompson ierr = CeedBasisGetDimension(basis, &dim); CeedChkBackend(ierr); 8347d8d0e25Snbeams bool isTensor; 835e15f9bd0SJeremy L Thompson ierr = CeedBasisIsTensor(basis, &isTensor); CeedChkBackend(ierr); 8367d8d0e25Snbeams if (isTensor) { 837e15f9bd0SJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints1D(basis, &Q1d); CeedChkBackend(ierr); 8387d8d0e25Snbeams } else { 8397d8d0e25Snbeams // LCOV_EXCL_START 840e15f9bd0SJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, "Backend does not implement operators with non-tensor basis"); 8417d8d0e25Snbeams // LCOV_EXCL_STOP 8427d8d0e25Snbeams } 8437d8d0e25Snbeams 8447d8d0e25Snbeams // Check for collocated gradient 8457d8d0e25Snbeams useCollograd = useCollograd && basis_data->d_collograd1d; 8467d8d0e25Snbeams } 8477d8d0e25Snbeams } 8487d8d0e25Snbeams data->dim = dim; 8497d8d0e25Snbeams data->Q1d = Q1d; 8507d8d0e25Snbeams 8517d8d0e25Snbeams // Define CEED_Q_VLA 8527d8d0e25Snbeams if (dim != 3 || useCollograd) { 8537d8d0e25Snbeams code << "\n#define CEED_Q_VLA 1\n\n"; 8547d8d0e25Snbeams } else { 8557d8d0e25Snbeams code << "\n#define CEED_Q_VLA "<<Q1d<<"\n\n"; 8567d8d0e25Snbeams } 8577d8d0e25Snbeams 8587d8d0e25Snbeams code << qFunction; 8597d8d0e25Snbeams 8607d8d0e25Snbeams // Setup 8617d8d0e25Snbeams code << "\n// -----------------------------------------------------------------------------\n"; 8627d8d0e25Snbeams code << "\nextern \"C\" __global__ void "<<oper<<"(CeedInt nelem, void* ctx, HipFieldsInt indices, HipFields fields, HipFields B, HipFields G, CeedScalar* W) {\n"; 8637d8d0e25Snbeams for (CeedInt i = 0; i < numinputfields; i++) { 8647d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfinputfields[i], &emode); 865e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 8667d8d0e25Snbeams if (emode != CEED_EVAL_WEIGHT) { // Skip CEED_EVAL_WEIGHT 8677d8d0e25Snbeams code << " const CeedScalar* d_u" <<i<<" = fields.in["<<i<<"];\n"; 8687d8d0e25Snbeams } 8697d8d0e25Snbeams } 8707d8d0e25Snbeams 8717d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 8727d8d0e25Snbeams code << " CeedScalar* d_v"<<i<<" = fields.out["<<i<<"];\n"; 8737d8d0e25Snbeams } 8747d8d0e25Snbeams 8757d8d0e25Snbeams code << " const CeedInt Dim = "<<dim<<";\n"; 8767d8d0e25Snbeams code << " const CeedInt Q1d = "<<Q1d<<";\n"; 8777d8d0e25Snbeams 8787d8d0e25Snbeams code << " HIP_DYNAMIC_SHARED( CeedScalar, slice)\n"; 8797d8d0e25Snbeams code << " BackendData data;\n"; 8807d8d0e25Snbeams code << " data.tidx = threadIdx.x;\n"; 8817d8d0e25Snbeams code << " data.tidy = threadIdx.y;\n"; 8827d8d0e25Snbeams code << " data.tidz = threadIdx.z;\n"; 8837d8d0e25Snbeams code << " data.tid = threadIdx.x + threadIdx.y*blockDim.x + threadIdx.z*blockDim.y*blockDim.x;\n"; 8847d8d0e25Snbeams code << " data.slice = slice+data.tidz*T1d"<<(dim>1?"*T1d":"")<<";\n"; 8857d8d0e25Snbeams 8867d8d0e25Snbeams code << "\n // -- Input field constants and basis data --\n"; 8877d8d0e25Snbeams //Initialize constants, and matrices B and G 8887d8d0e25Snbeams for (CeedInt i = 0; i < numinputfields; i++) { 8897d8d0e25Snbeams code << " // ---- Input field "<<i<<" ----\n"; 8907d8d0e25Snbeams // Get elemsize, emode, ncomp 8917d8d0e25Snbeams ierr = CeedOperatorFieldGetElemRestriction(opinputfields[i], &Erestrict); 892e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 8937d8d0e25Snbeams ierr = CeedElemRestrictionGetElementSize(Erestrict, &elemsize); 894e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 8957d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfinputfields[i], &emode); 896e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 8977d8d0e25Snbeams ierr = CeedElemRestrictionGetNumComponents(Erestrict, &ncomp); 898e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 8997d8d0e25Snbeams 9007d8d0e25Snbeams // Set field constants 9017d8d0e25Snbeams if (emode != CEED_EVAL_WEIGHT) { 902e15f9bd0SJeremy L Thompson ierr = CeedOperatorFieldGetBasis(opinputfields[i], &basis); CeedChkBackend(ierr); 9037d8d0e25Snbeams if (basis != CEED_BASIS_COLLOCATED) { 904e15f9bd0SJeremy L Thompson ierr = CeedBasisGetNumNodes1D(basis, &P1d); CeedChkBackend(ierr); 9057d8d0e25Snbeams code << " const CeedInt P_in_"<<i<<" = "<<P1d<<";\n"; 9067d8d0e25Snbeams } else { 9077d8d0e25Snbeams code << " const CeedInt P_in_"<<i<<" = "<<Q1d<<";\n"; 9087d8d0e25Snbeams } 9097d8d0e25Snbeams code << " const CeedInt ncomp_in_"<<i<<" = "<<ncomp<<";\n"; 9107d8d0e25Snbeams } 9117d8d0e25Snbeams 9127d8d0e25Snbeams // Load basis data 9137d8d0e25Snbeams code << " // EvalMode: "<<CeedEvalModes[emode]<<"\n"; 9147d8d0e25Snbeams switch (emode) { 9157d8d0e25Snbeams case CEED_EVAL_NONE: 9167d8d0e25Snbeams break; 9177d8d0e25Snbeams case CEED_EVAL_INTERP: 918e15f9bd0SJeremy L Thompson ierr = CeedBasisGetData(basis, &basis_data); CeedChkBackend(ierr); 9197d8d0e25Snbeams data->B.in[i] = basis_data->d_interp1d; 9207d8d0e25Snbeams code << " __shared__ double s_B_in_"<<i<<"["<<P1d*Q1d<<"];\n"; 9217d8d0e25Snbeams code << " loadMatrix<P_in_"<<i<<",Q1d>(data, B.in["<<i<<"], s_B_in_"<<i<<");\n"; 9227d8d0e25Snbeams break; 9237d8d0e25Snbeams case CEED_EVAL_GRAD: 924e15f9bd0SJeremy L Thompson ierr = CeedBasisGetData(basis, &basis_data); CeedChkBackend(ierr); 9257d8d0e25Snbeams data->B.in[i] = basis_data->d_interp1d; 9267d8d0e25Snbeams code << " __shared__ double s_B_in_"<<i<<"["<<P1d*Q1d<<"];\n"; 9277d8d0e25Snbeams code << " loadMatrix<P_in_"<<i<<",Q1d>(data, B.in["<<i<<"], s_B_in_"<<i<<");\n"; 9287d8d0e25Snbeams if (useCollograd) { 9297d8d0e25Snbeams data->G.in[i] = basis_data->d_collograd1d; 9307d8d0e25Snbeams code << " __shared__ double s_G_in_"<<i<<"["<<Q1d*Q1d<<"];\n"; 9317d8d0e25Snbeams code << " loadMatrix<Q1d,Q1d>(data, G.in["<<i<<"], s_G_in_"<<i<<");\n"; 9327d8d0e25Snbeams } else { 9337d8d0e25Snbeams data->G.in[i] = basis_data->d_grad1d; 9347d8d0e25Snbeams code << " __shared__ double s_G_in_"<<i<<"["<<P1d*Q1d<<"];\n"; 9357d8d0e25Snbeams code << " loadMatrix<P_in_"<<i<<",Q1d>(data, G.in["<<i<<"], s_G_in_"<<i<<");\n"; 9367d8d0e25Snbeams } 9377d8d0e25Snbeams break; 9387d8d0e25Snbeams case CEED_EVAL_WEIGHT: 9397d8d0e25Snbeams break; // No action 9407d8d0e25Snbeams case CEED_EVAL_DIV: 9417d8d0e25Snbeams break; // TODO: Not implemented 9427d8d0e25Snbeams case CEED_EVAL_CURL: 9437d8d0e25Snbeams break; // TODO: Not implemented 9447d8d0e25Snbeams } 9457d8d0e25Snbeams } 9467d8d0e25Snbeams 9477d8d0e25Snbeams code << "\n // -- Output field constants and basis data --\n"; 9487d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 9497d8d0e25Snbeams code << " // ---- Output field "<<i<<" ----\n"; 9507d8d0e25Snbeams // Get elemsize, emode, ncomp 9517d8d0e25Snbeams ierr = CeedOperatorFieldGetElemRestriction(opoutputfields[i], &Erestrict); 952e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 9537d8d0e25Snbeams ierr = CeedElemRestrictionGetElementSize(Erestrict, &elemsize); 954e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 9557d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfoutputfields[i], &emode); 956e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 9577d8d0e25Snbeams ierr = CeedElemRestrictionGetNumComponents(Erestrict, &ncomp); 958e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 9597d8d0e25Snbeams 9607d8d0e25Snbeams // Set field constants 961e15f9bd0SJeremy L Thompson ierr = CeedOperatorFieldGetBasis(opoutputfields[i], &basis); CeedChkBackend(ierr); 9627d8d0e25Snbeams if (basis != CEED_BASIS_COLLOCATED) { 963e15f9bd0SJeremy L Thompson ierr = CeedBasisGetNumNodes1D(basis, &P1d); CeedChkBackend(ierr); 9647d8d0e25Snbeams code << " const CeedInt P_out_"<<i<<" = "<<P1d<<";\n"; 9657d8d0e25Snbeams } else { 9667d8d0e25Snbeams code << " const CeedInt P_out_"<<i<<" = "<<Q1d<<";\n"; 9677d8d0e25Snbeams } 9687d8d0e25Snbeams code << " const CeedInt ncomp_out_"<<i<<" = "<<ncomp<<";\n"; 9697d8d0e25Snbeams 9707d8d0e25Snbeams // Load basis data 9717d8d0e25Snbeams code << " // EvalMode: "<<CeedEvalModes[emode]<<"\n"; 9727d8d0e25Snbeams switch (emode) { 9737d8d0e25Snbeams case CEED_EVAL_NONE: 9747d8d0e25Snbeams break; // No action 9757d8d0e25Snbeams case CEED_EVAL_INTERP: 976e15f9bd0SJeremy L Thompson ierr = CeedBasisGetData(basis, &basis_data); CeedChkBackend(ierr); 9777d8d0e25Snbeams data->B.out[i] = basis_data->d_interp1d; 9787d8d0e25Snbeams code << " __shared__ double s_B_out_"<<i<<"["<<P1d*Q1d<<"];\n"; 9797d8d0e25Snbeams code << " loadMatrix<P_out_"<<i<<",Q1d>(data, B.out["<<i<<"], s_B_out_"<<i<<");\n"; 9807d8d0e25Snbeams break; 9817d8d0e25Snbeams case CEED_EVAL_GRAD: 982e15f9bd0SJeremy L Thompson ierr = CeedBasisGetData(basis, &basis_data); CeedChkBackend(ierr); 9837d8d0e25Snbeams data->B.out[i] = basis_data->d_interp1d; 9847d8d0e25Snbeams code << " __shared__ double s_B_out_"<<i<<"["<<P1d*Q1d<<"];\n"; 9857d8d0e25Snbeams code << " loadMatrix<P_out_"<<i<<",Q1d>(data, B.out["<<i<<"], s_B_out_"<<i<<");\n"; 9867d8d0e25Snbeams if (useCollograd) { 9877d8d0e25Snbeams data->G.out[i] = basis_data->d_collograd1d; 9887d8d0e25Snbeams code << " __shared__ double s_G_out_"<<i<<"["<<Q1d*Q1d<<"];\n"; 9897d8d0e25Snbeams code << " loadMatrix<Q1d,Q1d>(data, G.out["<<i<<"], s_G_out_"<<i<<");\n"; 9907d8d0e25Snbeams } else { 9917d8d0e25Snbeams data->G.out[i] = basis_data->d_grad1d; 9927d8d0e25Snbeams code << " __shared__ double s_G_out_"<<i<<"["<<P1d*Q1d<<"];\n"; 9937d8d0e25Snbeams code << " loadMatrix<P_out_"<<i<<",Q1d>(data, G.out["<<i<<"], s_G_out_"<<i<<");\n"; 9947d8d0e25Snbeams } 9957d8d0e25Snbeams break; 9967d8d0e25Snbeams // LCOV_EXCL_START 9977d8d0e25Snbeams case CEED_EVAL_WEIGHT: { 9987d8d0e25Snbeams Ceed ceed; 999e15f9bd0SJeremy L Thompson ierr = CeedOperatorGetCeed(op, &ceed); CeedChkBackend(ierr); 1000e15f9bd0SJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, 10017d8d0e25Snbeams "CEED_EVAL_WEIGHT cannot be an output evaluation mode"); 10027d8d0e25Snbeams break; // Should not occur 10037d8d0e25Snbeams } 10047d8d0e25Snbeams case CEED_EVAL_DIV: 10057d8d0e25Snbeams break; // TODO: Not implemented 10067d8d0e25Snbeams case CEED_EVAL_CURL: 10077d8d0e25Snbeams break; // TODO: Not implemented 10087d8d0e25Snbeams // LCOV_EXCL_STOP 10097d8d0e25Snbeams } 10107d8d0e25Snbeams } 10117d8d0e25Snbeams code << "\n // -- Element loop --\n"; 10127d8d0e25Snbeams code << " __syncthreads();\n"; 10137d8d0e25Snbeams code << " for (CeedInt elem = blockIdx.x*blockDim.z + threadIdx.z; elem < nelem; elem += gridDim.x*blockDim.z) {\n"; 10147d8d0e25Snbeams // Input basis apply if needed 10157d8d0e25Snbeams // Generate the correct eval mode code for each input 10167d8d0e25Snbeams code << " // -- Input field restrictions and basis actions --\n"; 10177d8d0e25Snbeams for (CeedInt i = 0; i < numinputfields; i++) { 10187d8d0e25Snbeams code << " // ---- Input field "<<i<<" ----\n"; 10197d8d0e25Snbeams // Get elemsize, emode, ncomp 10207d8d0e25Snbeams ierr = CeedOperatorFieldGetElemRestriction(opinputfields[i], &Erestrict); 1021e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10227d8d0e25Snbeams ierr = CeedElemRestrictionGetElementSize(Erestrict, &elemsize); 1023e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10247d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfinputfields[i], &emode); 1025e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10267d8d0e25Snbeams ierr = CeedElemRestrictionGetNumComponents(Erestrict, &ncomp); 1027e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10287d8d0e25Snbeams 10297d8d0e25Snbeams // Restriction 10307d8d0e25Snbeams if (emode != CEED_EVAL_WEIGHT && 10317d8d0e25Snbeams !((emode == CEED_EVAL_NONE) && useCollograd)) { 10327d8d0e25Snbeams code << " CeedScalar r_u"<<i<<"[ncomp_in_"<<i<<"*P_in_"<<i<<"];\n"; 10337d8d0e25Snbeams 10347d8d0e25Snbeams bool isStrided; 1035e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionIsStrided(Erestrict, &isStrided); CeedChkBackend(ierr); 10367d8d0e25Snbeams if (!isStrided) { 10377d8d0e25Snbeams ierr = CeedElemRestrictionGetLVectorSize(Erestrict, &lsize); 1038e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10397d8d0e25Snbeams code << " const CeedInt lsize_in_"<<i<<" = "<<lsize<<";\n"; 10407d8d0e25Snbeams CeedInt compstride; 1041e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionGetCompStride(Erestrict, &compstride); CeedChkBackend(ierr); 10427d8d0e25Snbeams code << " // CompStride: "<<compstride<<"\n"; 1043e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionGetData(Erestrict, &restr_data); CeedChkBackend(ierr); 10447d8d0e25Snbeams data->indices.in[i] = restr_data->d_ind; 10457d8d0e25Snbeams code << " readDofsOffset"<<dim<<"d<ncomp_in_"<<i<<", "<<compstride<<", P_in_"<<i<<">(data, lsize_in_"<<i<<", elem, indices.in["<<i<<"], d_u"<<i<<", r_u"<<i<<");\n"; 10467d8d0e25Snbeams } else { 10477d8d0e25Snbeams bool backendstrides; 10487d8d0e25Snbeams ierr = CeedElemRestrictionHasBackendStrides(Erestrict, &backendstrides); 1049e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10507d8d0e25Snbeams CeedInt nelem; 10517d8d0e25Snbeams ierr = CeedElemRestrictionGetNumElements(Erestrict, &nelem); 1052e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10537d8d0e25Snbeams CeedInt strides[3] = {1, elemsize*nelem, elemsize}; 10547d8d0e25Snbeams if (!backendstrides) { 10557d8d0e25Snbeams ierr = CeedElemRestrictionGetStrides(Erestrict, &strides); 1056e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 10577d8d0e25Snbeams } 10587d8d0e25Snbeams code << " // Strides: {"<<strides[0]<<", "<<strides[1]<<", "<<strides[2]<<"}\n"; 10597d8d0e25Snbeams code << " readDofsStrided"<<dim<<"d<ncomp_in_"<<i<<",P_in_"<<i<<","<<strides[0]<<","<<strides[1]<<","<<strides[2]<<">(data, elem, d_u"<<i<<", r_u"<<i<<");\n"; 10607d8d0e25Snbeams } 10617d8d0e25Snbeams } 10627d8d0e25Snbeams 10637d8d0e25Snbeams // Basis action 10647d8d0e25Snbeams code << " // EvalMode: "<<CeedEvalModes[emode]<<"\n"; 10657d8d0e25Snbeams switch (emode) { 10667d8d0e25Snbeams case CEED_EVAL_NONE: 10677d8d0e25Snbeams if (!useCollograd) { 10687d8d0e25Snbeams code << " CeedScalar* r_t"<<i<<" = r_u"<<i<<";\n"; 10697d8d0e25Snbeams } 10707d8d0e25Snbeams break; 10717d8d0e25Snbeams case CEED_EVAL_INTERP: 10727d8d0e25Snbeams code << " CeedScalar r_t"<<i<<"[ncomp_in_"<<i<<"*Q1d];\n"; 10737d8d0e25Snbeams code << " interp"<<dim<<"d<ncomp_in_"<<i<<",P_in_"<<i<<",Q1d>(data, r_u"<<i<<", s_B_in_"<<i<<", r_t"<<i<<");\n"; 10747d8d0e25Snbeams break; 10757d8d0e25Snbeams case CEED_EVAL_GRAD: 10767d8d0e25Snbeams if (useCollograd) { 10777d8d0e25Snbeams code << " CeedScalar r_t"<<i<<"[ncomp_in_"<<i<<"*Q1d];\n"; 10787d8d0e25Snbeams code << " interp"<<dim<<"d<ncomp_in_"<<i<<",P_in_"<<i<<",Q1d>(data, r_u"<<i<<", s_B_in_"<<i<<", r_t"<<i<<");\n"; 10797d8d0e25Snbeams } else { 10807d8d0e25Snbeams code << " CeedScalar r_t"<<i<<"[ncomp_in_"<<i<<"*Dim*Q1d];\n"; 10817d8d0e25Snbeams code << " grad"<<dim<<"d<ncomp_in_"<<i<<",P_in_"<<i<<",Q1d>(data, r_u"<<i<<", s_B_in_"<<i<<", s_G_in_"<<i<<", r_t"<<i<<");\n"; 10827d8d0e25Snbeams } 10837d8d0e25Snbeams break; 10847d8d0e25Snbeams case CEED_EVAL_WEIGHT: 10857d8d0e25Snbeams code << " CeedScalar r_t"<<i<<"[Q1d];\n"; 1086e15f9bd0SJeremy L Thompson ierr = CeedOperatorFieldGetBasis(opinputfields[i], &basis); CeedChkBackend(ierr); 1087e15f9bd0SJeremy L Thompson ierr = CeedBasisGetData(basis, &basis_data); CeedChkBackend(ierr); 10887d8d0e25Snbeams data->W = basis_data->d_qweight1d; 10897d8d0e25Snbeams code << " weight"<<dim<<"d<Q1d>(data, W, r_t"<<i<<");\n"; 10907d8d0e25Snbeams break; // No action 10917d8d0e25Snbeams case CEED_EVAL_DIV: 10927d8d0e25Snbeams break; // TODO: Not implemented 10937d8d0e25Snbeams case CEED_EVAL_CURL: 10947d8d0e25Snbeams break; // TODO: Not implemented 10957d8d0e25Snbeams } 10967d8d0e25Snbeams } 10977d8d0e25Snbeams 10987d8d0e25Snbeams // Q function 10997d8d0e25Snbeams code << "\n // -- Output field setup --\n"; 11007d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 11017d8d0e25Snbeams code << "\n // ---- Output field "<<i<<" ----\n"; 11027d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfoutputfields[i], &emode); 1103e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 11047d8d0e25Snbeams if (emode==CEED_EVAL_GRAD) 11057d8d0e25Snbeams { 11067d8d0e25Snbeams if (useCollograd) { 11077d8d0e25Snbeams //Accumulator for gradient slices 11087d8d0e25Snbeams code << " CeedScalar r_tt"<<i<<"[ncomp_out_"<<i<<"*Q1d];\n"; 11097d8d0e25Snbeams code << " for (CeedInt i = 0; i < ncomp_out_"<<i<<"; ++i) {\n"; 11107d8d0e25Snbeams code << " for (CeedInt j = 0; j < Q1d; ++j) {\n"; 11117d8d0e25Snbeams code << " r_tt"<<i<<"[j + i*Q1d] = 0.0;\n"; 11127d8d0e25Snbeams code << " }\n"; 11137d8d0e25Snbeams code << " }\n"; 11147d8d0e25Snbeams } else { 11157d8d0e25Snbeams code << " CeedScalar r_tt"<<i<<"[ncomp_out_"<<i<<"*Dim*Q1d];\n"; 11167d8d0e25Snbeams } 11177d8d0e25Snbeams } 11187d8d0e25Snbeams if (emode==CEED_EVAL_NONE || emode==CEED_EVAL_INTERP) 11197d8d0e25Snbeams { 11207d8d0e25Snbeams code << " CeedScalar r_tt"<<i<<"[ncomp_out_"<<i<<"*Q1d];\n"; 11217d8d0e25Snbeams } 11227d8d0e25Snbeams } 11237d8d0e25Snbeams // We treat quadrature points per slice in 3d to save registers 11247d8d0e25Snbeams if (useCollograd) { 11257d8d0e25Snbeams code << "\n // Note: Collocated Gradient\n"; 11267d8d0e25Snbeams code << "#pragma unroll\n"; 11277d8d0e25Snbeams code << " for (CeedInt q=0; q<Q1d; q++) {\n"; 11287d8d0e25Snbeams code << " // -- Input fields --\n"; 11297d8d0e25Snbeams for (CeedInt i = 0; i < numinputfields; i++) { 11307d8d0e25Snbeams code << " // ---- Input field "<<i<<" ----\n"; 11317d8d0e25Snbeams // Get elemsize, emode, ncomp 11327d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfinputfields[i], &emode); 1133e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 11347d8d0e25Snbeams // Basis action 11357d8d0e25Snbeams code << " // EvalMode: "<<CeedEvalModes[emode]<<"\n"; 11367d8d0e25Snbeams switch (emode) { 11377d8d0e25Snbeams case CEED_EVAL_NONE: 11387d8d0e25Snbeams code << " CeedScalar r_q"<<i<<"[ncomp_in_"<<i<<"];\n"; 11397d8d0e25Snbeams 11407d8d0e25Snbeams bool isStrided; 1141e15f9bd0SJeremy L Thompson ierr = CeedOperatorFieldGetElemRestriction(opinputfields[i], &Erestrict); CeedChkBackend(ierr); 1142e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionGetElementSize(Erestrict, &elemsize); CeedChkBackend(ierr); 1143e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionIsStrided(Erestrict, &isStrided); CeedChkBackend(ierr); 11447d8d0e25Snbeams if (!isStrided) { 11457d8d0e25Snbeams ierr = CeedElemRestrictionGetLVectorSize(Erestrict, &lsize); 1146e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 11477d8d0e25Snbeams code << " const CeedInt lsize_in_"<<i<<" = "<<lsize<<";\n"; 11487d8d0e25Snbeams CeedInt compstride; 1149e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionGetCompStride(Erestrict, &compstride); CeedChkBackend(ierr); 11507d8d0e25Snbeams code << " // CompStride: "<<compstride<<"\n"; 1151e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionGetData(Erestrict, &restr_data); CeedChkBackend(ierr); 11527d8d0e25Snbeams data->indices.in[i] = restr_data->d_ind; 11537d8d0e25Snbeams code << " readSliceQuadsOffset"<<"3d<ncomp_in_"<<i<<", "<<compstride<<", Q1d>(data, lsize_in_"<<i<<", elem, q, indices.in["<<i<<"], d_u"<<i<<", r_q"<<i<<");\n"; 11547d8d0e25Snbeams } else { 11557d8d0e25Snbeams bool backendstrides; 11567d8d0e25Snbeams ierr = CeedElemRestrictionHasBackendStrides(Erestrict, &backendstrides); 1157e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 11587d8d0e25Snbeams CeedInt nelem; 11597d8d0e25Snbeams ierr = CeedElemRestrictionGetNumElements(Erestrict, &nelem); 1160e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 11617d8d0e25Snbeams CeedInt strides[3] = {1, elemsize*nelem, elemsize}; 11627d8d0e25Snbeams if (!backendstrides) { 11637d8d0e25Snbeams ierr = CeedElemRestrictionGetStrides(Erestrict, &strides); 1164e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 11657d8d0e25Snbeams } 11667d8d0e25Snbeams code << " // Strides: {"<<strides[0]<<", "<<strides[1]<<", "<<strides[2]<<"}\n"; 11677d8d0e25Snbeams code << " readSliceQuadsStrided"<<"3d<ncomp_in_"<<i<<",Q1d"","<<strides[0]<<","<<strides[1]<<","<<strides[2]<<">(data, elem, q, d_u"<<i<<", r_q"<<i<<");\n"; 11687d8d0e25Snbeams } 11697d8d0e25Snbeams break; 11707d8d0e25Snbeams case CEED_EVAL_INTERP: 11717d8d0e25Snbeams code << " CeedScalar r_q"<<i<<"[ncomp_in_"<<i<<"];\n"; 11727d8d0e25Snbeams code << " for (CeedInt j = 0; j < ncomp_in_"<<i<<" ; ++j) {\n"; 11737d8d0e25Snbeams code << " r_q"<<i<<"[j] = r_t"<<i<<"[q + j*Q1d];\n"; 11747d8d0e25Snbeams code << " }\n"; 11757d8d0e25Snbeams break; 11767d8d0e25Snbeams case CEED_EVAL_GRAD: 11777d8d0e25Snbeams code << " CeedScalar r_q"<<i<<"[ncomp_in_"<<i<<"*Dim];\n"; 11787d8d0e25Snbeams code << " gradCollo3d<ncomp_in_"<<i<<",Q1d>(data, q, r_t"<<i<<", s_G_in_"<<i<<", r_q"<<i<<");\n"; 11797d8d0e25Snbeams break; 11807d8d0e25Snbeams case CEED_EVAL_WEIGHT: 11817d8d0e25Snbeams code << " CeedScalar r_q"<<i<<"[1];\n"; 11827d8d0e25Snbeams code << " r_q"<<i<<"[0] = r_t"<<i<<"[q];\n"; 11837d8d0e25Snbeams break; // No action 11847d8d0e25Snbeams case CEED_EVAL_DIV: 11857d8d0e25Snbeams break; // TODO: Not implemented 11867d8d0e25Snbeams case CEED_EVAL_CURL: 11877d8d0e25Snbeams break; // TODO: Not implemented 11887d8d0e25Snbeams } 11897d8d0e25Snbeams } 11907d8d0e25Snbeams code << "\n // -- Output fields --\n"; 11917d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 11927d8d0e25Snbeams code << " // ---- Output field "<<i<<" ----\n"; 11937d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfoutputfields[i], &emode); 1194e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 11957d8d0e25Snbeams // Basis action 11967d8d0e25Snbeams switch (emode) { 11977d8d0e25Snbeams case CEED_EVAL_NONE: 11987d8d0e25Snbeams code << " CeedScalar r_qq"<<i<<"[ncomp_out_"<<i<<"];\n"; 11997d8d0e25Snbeams break; // No action 12007d8d0e25Snbeams case CEED_EVAL_INTERP: 12017d8d0e25Snbeams code << " CeedScalar r_qq"<<i<<"[ncomp_out_"<<i<<"];\n"; 12027d8d0e25Snbeams break; 12037d8d0e25Snbeams case CEED_EVAL_GRAD: 12047d8d0e25Snbeams code << " CeedScalar r_qq"<<i<<"[ncomp_out_"<<i<<"*Dim];\n"; 12057d8d0e25Snbeams break; 12067d8d0e25Snbeams case CEED_EVAL_WEIGHT: 12077d8d0e25Snbeams break; // Should not occur 12087d8d0e25Snbeams case CEED_EVAL_DIV: 12097d8d0e25Snbeams break; // TODO: Not implemented 12107d8d0e25Snbeams case CEED_EVAL_CURL: 12117d8d0e25Snbeams break; // TODO: Not implemented 12127d8d0e25Snbeams } 12137d8d0e25Snbeams } 12147d8d0e25Snbeams } else { 12157d8d0e25Snbeams code << "\n // Note: No Collocated Gradient\n"; 12167d8d0e25Snbeams code << " // -- Input fields --\n"; 12177d8d0e25Snbeams for (CeedInt i = 0; i < numinputfields; i++) { 12187d8d0e25Snbeams code << " // ---- Input field "<<i<<" ----\n"; 12197d8d0e25Snbeams code << " CeedScalar* r_q"<<i<<" = r_t"<<i<<";\n"; 12207d8d0e25Snbeams } 12217d8d0e25Snbeams code << " // -- Output fields --\n"; 12227d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 12237d8d0e25Snbeams code << " // ---- Output field "<<i<<" ----\n"; 12247d8d0e25Snbeams code << " CeedScalar* r_qq"<<i<<" = r_tt"<<i<<";\n"; 12257d8d0e25Snbeams } 12267d8d0e25Snbeams } 12277d8d0e25Snbeams code << "\n // -- QFunction Inputs and outputs --\n"; 12287d8d0e25Snbeams code << " CeedScalar* in["<<numinputfields<<"];\n"; 12297d8d0e25Snbeams for (CeedInt i = 0; i < numinputfields; i++) { 12307d8d0e25Snbeams code << " // ---- Input field "<<i<<" ----\n"; 12317d8d0e25Snbeams code << " in["<<i<<"] = r_q"<<i<<";\n"; 12327d8d0e25Snbeams } 12337d8d0e25Snbeams code << " CeedScalar* out["<<numoutputfields<<"];\n"; 12347d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 12357d8d0e25Snbeams code << " // ---- Output field "<<i<<" ----\n"; 12367d8d0e25Snbeams code << " out["<<i<<"] = r_qq"<<i<<";\n"; 12377d8d0e25Snbeams } 12387d8d0e25Snbeams code << "\n // -- Apply QFunction --\n"; 12397d8d0e25Snbeams code << " "<<qFunctionName<<"(ctx, "; 12407d8d0e25Snbeams if (dim != 3 || useCollograd) { 12417d8d0e25Snbeams code << "1"; 12427d8d0e25Snbeams } else { 12437d8d0e25Snbeams code << "Q1d"; 12447d8d0e25Snbeams } 12457d8d0e25Snbeams code << ", in, out);\n"; 12467d8d0e25Snbeams if (useCollograd) { 12477d8d0e25Snbeams code << "\n // Note: Collocated Gradient\n"; 12487d8d0e25Snbeams code << " // -- Output fields --\n"; 12497d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 12507d8d0e25Snbeams code << " // ---- Output field "<<i<<" ----\n"; 12517d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfoutputfields[i], &emode); 1252e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 12537d8d0e25Snbeams // Basis action 12547d8d0e25Snbeams code << " // EvalMode: "<<CeedEvalModes[emode]<<"\n"; 12557d8d0e25Snbeams switch (emode) { 12567d8d0e25Snbeams case CEED_EVAL_NONE: 12577d8d0e25Snbeams code << " for (CeedInt j = 0; j < ncomp_out_"<<i<<" ; ++j) {\n"; 12587d8d0e25Snbeams code << " r_tt"<<i<<"[q + j*Q1d] = r_qq"<<i<<"[j];\n"; 12597d8d0e25Snbeams code << " }\n"; 12607d8d0e25Snbeams break; // No action 12617d8d0e25Snbeams case CEED_EVAL_INTERP: 12627d8d0e25Snbeams code << " for (CeedInt j = 0; j < ncomp_out_"<<i<<" ; ++j) {\n"; 12637d8d0e25Snbeams code << " r_tt"<<i<<"[q + j*Q1d] = r_qq"<<i<<"[j];\n"; 12647d8d0e25Snbeams code << " }\n"; 12657d8d0e25Snbeams break; 12667d8d0e25Snbeams case CEED_EVAL_GRAD: 12677d8d0e25Snbeams code << " gradColloTranspose3d<ncomp_out_"<<i<<",Q1d>(data, q, r_qq"<<i<<", s_G_out_"<<i<<", r_tt"<<i<<");\n"; 12687d8d0e25Snbeams break; 12697d8d0e25Snbeams case CEED_EVAL_WEIGHT: 12707d8d0e25Snbeams break; // Should not occur 12717d8d0e25Snbeams case CEED_EVAL_DIV: 12727d8d0e25Snbeams break; // TODO: Not implemented 12737d8d0e25Snbeams case CEED_EVAL_CURL: 12747d8d0e25Snbeams break; // TODO: Not implemented 12757d8d0e25Snbeams } 12767d8d0e25Snbeams } 12777d8d0e25Snbeams code << " }\n"; 12787d8d0e25Snbeams } 12797d8d0e25Snbeams 12807d8d0e25Snbeams // Output basis apply if needed 12817d8d0e25Snbeams // Generate the correct eval mode code for each output 12827d8d0e25Snbeams code << "\n // -- Output field basis action and restrictions --\n"; 12837d8d0e25Snbeams for (CeedInt i = 0; i < numoutputfields; i++) { 12847d8d0e25Snbeams code << " // ---- Output field "<<i<<" ----\n"; 12857d8d0e25Snbeams // Get elemsize, emode, ncomp 12867d8d0e25Snbeams ierr = CeedOperatorFieldGetElemRestriction(opoutputfields[i], &Erestrict); 1287e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 12887d8d0e25Snbeams ierr = CeedElemRestrictionGetElementSize(Erestrict, &elemsize); 1289e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 12907d8d0e25Snbeams ierr = CeedQFunctionFieldGetEvalMode(qfoutputfields[i], &emode); 1291e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 12927d8d0e25Snbeams ierr = CeedElemRestrictionGetNumComponents(Erestrict, &ncomp); 1293e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 12947d8d0e25Snbeams // Basis action 12957d8d0e25Snbeams code << " // EvalMode: "<<CeedEvalModes[emode]<<"\n"; 12967d8d0e25Snbeams switch (emode) { 12977d8d0e25Snbeams case CEED_EVAL_NONE: 12987d8d0e25Snbeams code << " CeedScalar* r_v"<<i<<" = r_tt"<<i<<";\n"; 12997d8d0e25Snbeams break; // No action 13007d8d0e25Snbeams case CEED_EVAL_INTERP: 13017d8d0e25Snbeams code << " CeedScalar r_v"<<i<<"[ncomp_out_"<<i<<"*P_out_"<<i<<"];\n"; 13027d8d0e25Snbeams code << " interpTranspose"<<dim<<"d<ncomp_out_"<<i<<",P_out_"<<i<<",Q1d>(data, r_tt"<<i<<", s_B_out_"<<i<<", r_v"<<i<<");\n"; 13037d8d0e25Snbeams break; 13047d8d0e25Snbeams case CEED_EVAL_GRAD: 13057d8d0e25Snbeams code << " CeedScalar r_v"<<i<<"[ncomp_out_"<<i<<"*P_out_"<<i<<"];\n"; 13067d8d0e25Snbeams if (useCollograd) { 13077d8d0e25Snbeams code << " interpTranspose"<<dim<<"d<ncomp_out_"<<i<<",P_out_"<<i<<",Q1d>(data, r_tt"<<i<<", s_B_out_"<<i<<", r_v"<<i<<");\n"; 13087d8d0e25Snbeams } else { 13097d8d0e25Snbeams code << " gradTranspose"<<dim<<"d<ncomp_out_"<<i<<",P_out_"<<i<<",Q1d>(data, r_tt"<<i<<", s_B_out_"<<i<<", s_G_out_"<<i<<", r_v"<<i<<");\n"; 13107d8d0e25Snbeams } 13117d8d0e25Snbeams break; 13127d8d0e25Snbeams // LCOV_EXCL_START 13137d8d0e25Snbeams case CEED_EVAL_WEIGHT: { 13147d8d0e25Snbeams Ceed ceed; 1315e15f9bd0SJeremy L Thompson ierr = CeedOperatorGetCeed(op, &ceed); CeedChkBackend(ierr); 1316e15f9bd0SJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, 13177d8d0e25Snbeams "CEED_EVAL_WEIGHT cannot be an output evaluation mode"); 13187d8d0e25Snbeams break; // Should not occur 13197d8d0e25Snbeams } 13207d8d0e25Snbeams case CEED_EVAL_DIV: 13217d8d0e25Snbeams break; // TODO: Not implemented 13227d8d0e25Snbeams case CEED_EVAL_CURL: 13237d8d0e25Snbeams break; // TODO: Not implemented 13247d8d0e25Snbeams // LCOV_EXCL_STOP 13257d8d0e25Snbeams } 13267d8d0e25Snbeams // Restriction 13277d8d0e25Snbeams bool isStrided; 1328e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionIsStrided(Erestrict, &isStrided); CeedChkBackend(ierr); 13297d8d0e25Snbeams if (!isStrided) { 13307d8d0e25Snbeams ierr = CeedElemRestrictionGetLVectorSize(Erestrict, &lsize); 1331e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 13327d8d0e25Snbeams code << " const CeedInt lsize_out_"<<i<<" = "<<lsize<<";\n"; 13337d8d0e25Snbeams CeedInt compstride; 1334e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionGetCompStride(Erestrict, &compstride); CeedChkBackend(ierr); 13357d8d0e25Snbeams code << " // CompStride: "<<compstride<<"\n"; 1336e15f9bd0SJeremy L Thompson ierr = CeedElemRestrictionGetData(Erestrict, &restr_data); CeedChkBackend(ierr); 13377d8d0e25Snbeams data->indices.out[i] = restr_data->d_ind; 13387d8d0e25Snbeams code << " writeDofsOffset"<<dim<<"d<ncomp_out_"<<i<<", "<<compstride<<", P_out_"<<i<<">(data, lsize_out_"<<i<<", elem, indices.out["<<i<<"], r_v"<<i<<", d_v"<<i<<");\n"; 13397d8d0e25Snbeams } else { 13407d8d0e25Snbeams bool backendstrides; 13417d8d0e25Snbeams ierr = CeedElemRestrictionHasBackendStrides(Erestrict, &backendstrides); 1342e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 13437d8d0e25Snbeams CeedInt nelem; 13447d8d0e25Snbeams ierr = CeedElemRestrictionGetNumElements(Erestrict, &nelem); 1345e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 13467d8d0e25Snbeams CeedInt strides[3] = {1, elemsize*nelem, elemsize}; 13477d8d0e25Snbeams if (!backendstrides) { 13487d8d0e25Snbeams ierr = CeedElemRestrictionGetStrides(Erestrict, &strides); 1349e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 13507d8d0e25Snbeams } 13517d8d0e25Snbeams code << " // Strides: {"<<strides[0]<<", "<<strides[1]<<", "<<strides[2]<<"}\n"; 13527d8d0e25Snbeams code << " writeDofsStrided"<<dim<<"d<ncomp_out_"<<i<<",P_out_"<<i<<","<<strides[0]<<","<<strides[1]<<","<<strides[2]<<">(data, elem, r_v"<<i<<", d_v"<<i<<");\n"; 13537d8d0e25Snbeams } 13547d8d0e25Snbeams } 13557d8d0e25Snbeams 13567d8d0e25Snbeams code << " }\n"; 13577d8d0e25Snbeams code << "}\n"; 13587d8d0e25Snbeams code << "// -----------------------------------------------------------------------------\n\n"; 13597d8d0e25Snbeams 13607d8d0e25Snbeams // View kernel for debugging 13617d8d0e25Snbeams CeedDebug(code.str().c_str()); 13627d8d0e25Snbeams 13637d8d0e25Snbeams ierr = CeedCompileHip(ceed, code.str().c_str(), &data->module, 1, 13647d8d0e25Snbeams "T1d", CeedIntMax(Q1d, data->maxP1d)); 1365e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 13667d8d0e25Snbeams ierr = CeedGetKernelHip(ceed, data->module, oper.c_str(), &data->op); 1367e15f9bd0SJeremy L Thompson CeedChkBackend(ierr); 13687d8d0e25Snbeams 1369e15f9bd0SJeremy L Thompson ierr = CeedOperatorSetSetupDone(op); CeedChkBackend(ierr); 1370e15f9bd0SJeremy L Thompson return CEED_ERROR_SUCCESS; 13717d8d0e25Snbeams } 13727d8d0e25Snbeams //------------------------------------------------------------------------------ 1373