1*9ba83ac0SJeremy L Thompson // Copyright (c) 2017-2026, Lawrence Livermore National Security, LLC and other CEED contributors. 2f80f4a74SSebastian Grimberg // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3f80f4a74SSebastian Grimberg // 4f80f4a74SSebastian Grimberg // SPDX-License-Identifier: BSD-2-Clause 5f80f4a74SSebastian Grimberg // 6f80f4a74SSebastian Grimberg // This file is part of CEED: http://github.com/ceed 7f80f4a74SSebastian Grimberg 83c1e2affSSebastian Grimberg /// @file 93c1e2affSSebastian Grimberg /// Internal header for MAGMA tensor basis interpolation in 1D 103c1e2affSSebastian Grimberg #include "magma-common-tensor.h" 113c1e2affSSebastian Grimberg 12f80f4a74SSebastian Grimberg // macros to abstract access of shared memory and reg. file 133c1e2affSSebastian Grimberg #define sT(i, j) sT[(j) * P + (i)] 14f80f4a74SSebastian Grimberg 159e0c01faSSebastian Grimberg //////////////////////////////////////////////////////////////////////////////// 16f80f4a74SSebastian Grimberg // interp basis action (1D) 173c1e2affSSebastian Grimberg template <typename T, int DIM, int NUM_COMP, int P, int Q> 187132caa0SSebastian Grimberg static __device__ __inline__ void magma_interp_1d_device(const T *sT, T *sU[NUM_COMP], T *sV[NUM_COMP], const int tx) { 19f80f4a74SSebastian Grimberg // Assumptions 203c1e2affSSebastian Grimberg // 1. 1D threads of size max(P,Q) 213c1e2affSSebastian Grimberg // 2. sU[i] is 1xP: in shared memory 223c1e2affSSebastian Grimberg // 3. sV[i] is 1xQ: in shared memory 233c1e2affSSebastian Grimberg // 4. P_roduct per component is one row (1xP) times T matrix (PxQ) => one row (1xQ) 24f80f4a74SSebastian Grimberg // 5. Each thread computes one entry in sV[i] 25f80f4a74SSebastian Grimberg // 6. Must sync before and after call 26f80f4a74SSebastian Grimberg // 7. Note that the layout for U and V is different from 2D/3D problem 27f80f4a74SSebastian Grimberg 283c1e2affSSebastian Grimberg if (tx < Q) { 293c1e2affSSebastian Grimberg for (int comp = 0; comp < NUM_COMP; comp++) { 307132caa0SSebastian Grimberg T rv = 0.0; 313c1e2affSSebastian Grimberg for (int i = 0; i < P; i++) { 323c1e2affSSebastian Grimberg rv += sU[comp][i] * sT(i, tx); // sT[tx * P + i]; 33f80f4a74SSebastian Grimberg } 343c1e2affSSebastian Grimberg sV[comp][tx] = rv; 35f80f4a74SSebastian Grimberg } 36f80f4a74SSebastian Grimberg } 37f80f4a74SSebastian Grimberg } 38f80f4a74SSebastian Grimberg 399e0c01faSSebastian Grimberg //////////////////////////////////////////////////////////////////////////////// 403c1e2affSSebastian Grimberg extern "C" __launch_bounds__(MAGMA_BASIS_BOUNDS(BASIS_MAX_P_Q, MAGMA_MAXTHREADS_1D)) __global__ 41f80f4a74SSebastian Grimberg void magma_interpn_1d_kernel(const CeedScalar *dT, const CeedScalar *dU, const int estrdU, const int cstrdU, CeedScalar *dV, const int estrdV, 42f80f4a74SSebastian Grimberg const int cstrdV, const int nelem) { 43f80f4a74SSebastian Grimberg MAGMA_DEVICE_SHARED(CeedScalar, shared_data) 44f80f4a74SSebastian Grimberg 45f80f4a74SSebastian Grimberg const int tx = threadIdx.x; 46f80f4a74SSebastian Grimberg const int ty = threadIdx.y; 47f80f4a74SSebastian Grimberg const int elem_id = (blockIdx.x * blockDim.y) + ty; 48f80f4a74SSebastian Grimberg 49f80f4a74SSebastian Grimberg if (elem_id >= nelem) return; 50f80f4a74SSebastian Grimberg 513c1e2affSSebastian Grimberg CeedScalar *sU[BASIS_NUM_COMP]; 523c1e2affSSebastian Grimberg CeedScalar *sV[BASIS_NUM_COMP]; 53f80f4a74SSebastian Grimberg 54f80f4a74SSebastian Grimberg // shift global memory pointers by elem stride 55f80f4a74SSebastian Grimberg dU += elem_id * estrdU; 56f80f4a74SSebastian Grimberg dV += elem_id * estrdV; 57f80f4a74SSebastian Grimberg 58f80f4a74SSebastian Grimberg // assign shared memory pointers 593c1e2affSSebastian Grimberg CeedScalar *sT = (CeedScalar *)shared_data; 603c1e2affSSebastian Grimberg CeedScalar *sW = sT + BASIS_P * BASIS_Q; 613c1e2affSSebastian Grimberg sU[0] = sW + ty * BASIS_NUM_COMP * (BASIS_P + BASIS_Q); 623c1e2affSSebastian Grimberg sV[0] = sU[0] + (BASIS_NUM_COMP * 1 * BASIS_P); 633c1e2affSSebastian Grimberg for (int comp = 1; comp < BASIS_NUM_COMP; comp++) { 643c1e2affSSebastian Grimberg sU[comp] = sU[comp - 1] + (1 * BASIS_P); 653c1e2affSSebastian Grimberg sV[comp] = sV[comp - 1] + (1 * BASIS_Q); 66f80f4a74SSebastian Grimberg } 67f80f4a74SSebastian Grimberg 68f80f4a74SSebastian Grimberg // read T 69f80f4a74SSebastian Grimberg if (ty == 0) { 709e0c01faSSebastian Grimberg read_T_notrans_gm2sm<BASIS_P, BASIS_Q>(tx, dT, sT); 71f80f4a74SSebastian Grimberg } 72f80f4a74SSebastian Grimberg 73f80f4a74SSebastian Grimberg // read U 743c1e2affSSebastian Grimberg read_1d<CeedScalar, BASIS_P, BASIS_NUM_COMP>(dU, cstrdU, sU, tx); 75f80f4a74SSebastian Grimberg 76f80f4a74SSebastian Grimberg __syncthreads(); 777132caa0SSebastian Grimberg magma_interp_1d_device<CeedScalar, BASIS_DIM, BASIS_NUM_COMP, BASIS_P, BASIS_Q>(sT, sU, sV, tx); 78f80f4a74SSebastian Grimberg __syncthreads(); 79f80f4a74SSebastian Grimberg 80f80f4a74SSebastian Grimberg // write V 813c1e2affSSebastian Grimberg write_1d<CeedScalar, BASIS_Q, BASIS_NUM_COMP>(sV, dV, cstrdV, tx); 82f80f4a74SSebastian Grimberg } 83f80f4a74SSebastian Grimberg 849e0c01faSSebastian Grimberg //////////////////////////////////////////////////////////////////////////////// 853c1e2affSSebastian Grimberg extern "C" __launch_bounds__(MAGMA_BASIS_BOUNDS(BASIS_MAX_P_Q, MAGMA_MAXTHREADS_1D)) __global__ 86f80f4a74SSebastian Grimberg void magma_interpt_1d_kernel(const CeedScalar *dT, const CeedScalar *dU, const int estrdU, const int cstrdU, CeedScalar *dV, const int estrdV, 87f80f4a74SSebastian Grimberg const int cstrdV, const int nelem) { 88f80f4a74SSebastian Grimberg MAGMA_DEVICE_SHARED(CeedScalar, shared_data) 89f80f4a74SSebastian Grimberg 90f80f4a74SSebastian Grimberg const int tx = threadIdx.x; 91f80f4a74SSebastian Grimberg const int ty = threadIdx.y; 92f80f4a74SSebastian Grimberg const int elem_id = (blockIdx.x * blockDim.y) + ty; 93f80f4a74SSebastian Grimberg 94f80f4a74SSebastian Grimberg if (elem_id >= nelem) return; 95f80f4a74SSebastian Grimberg 963c1e2affSSebastian Grimberg CeedScalar *sU[BASIS_NUM_COMP]; 973c1e2affSSebastian Grimberg CeedScalar *sV[BASIS_NUM_COMP]; 98f80f4a74SSebastian Grimberg 99f80f4a74SSebastian Grimberg // shift global memory pointers by elem stride 100f80f4a74SSebastian Grimberg dU += elem_id * estrdU; 101f80f4a74SSebastian Grimberg dV += elem_id * estrdV; 102f80f4a74SSebastian Grimberg 103f80f4a74SSebastian Grimberg // assign shared memory pointers 1043c1e2affSSebastian Grimberg CeedScalar *sT = (CeedScalar *)shared_data; 1053c1e2affSSebastian Grimberg CeedScalar *sW = sT + BASIS_Q * BASIS_P; 1063c1e2affSSebastian Grimberg sU[0] = sW + ty * BASIS_NUM_COMP * (BASIS_Q + BASIS_P); 1073c1e2affSSebastian Grimberg sV[0] = sU[0] + (BASIS_NUM_COMP * 1 * BASIS_Q); 1083c1e2affSSebastian Grimberg for (int comp = 1; comp < BASIS_NUM_COMP; comp++) { 1093c1e2affSSebastian Grimberg sU[comp] = sU[comp - 1] + (1 * BASIS_Q); 1103c1e2affSSebastian Grimberg sV[comp] = sV[comp - 1] + (1 * BASIS_P); 111f80f4a74SSebastian Grimberg } 112f80f4a74SSebastian Grimberg 113f80f4a74SSebastian Grimberg // read T 114f80f4a74SSebastian Grimberg if (ty == 0) { 1159e0c01faSSebastian Grimberg read_T_trans_gm2sm<BASIS_Q, BASIS_P>(tx, dT, sT); 116f80f4a74SSebastian Grimberg } 117f80f4a74SSebastian Grimberg 118f80f4a74SSebastian Grimberg // read U 1193c1e2affSSebastian Grimberg read_1d<CeedScalar, BASIS_Q, BASIS_NUM_COMP>(dU, cstrdU, sU, tx); 120f80f4a74SSebastian Grimberg 121f80f4a74SSebastian Grimberg __syncthreads(); 1227132caa0SSebastian Grimberg magma_interp_1d_device<CeedScalar, BASIS_DIM, BASIS_NUM_COMP, BASIS_Q, BASIS_P>(sT, sU, sV, tx); 123f80f4a74SSebastian Grimberg __syncthreads(); 124f80f4a74SSebastian Grimberg 125f80f4a74SSebastian Grimberg // write V 1263c1e2affSSebastian Grimberg write_1d<CeedScalar, BASIS_P, BASIS_NUM_COMP>(sV, dV, cstrdV, tx); 127f80f4a74SSebastian Grimberg } 128db2becc9SJeremy L Thompson 129db2becc9SJeremy L Thompson //////////////////////////////////////////////////////////////////////////////// 130db2becc9SJeremy L Thompson extern "C" __launch_bounds__(MAGMA_BASIS_BOUNDS(BASIS_MAX_P_Q, MAGMA_MAXTHREADS_1D)) __global__ 131db2becc9SJeremy L Thompson void magma_interpta_1d_kernel(const CeedScalar *dT, const CeedScalar *dU, const int estrdU, const int cstrdU, CeedScalar *dV, const int estrdV, 132db2becc9SJeremy L Thompson const int cstrdV, const int nelem) { 133db2becc9SJeremy L Thompson MAGMA_DEVICE_SHARED(CeedScalar, shared_data) 134db2becc9SJeremy L Thompson 135db2becc9SJeremy L Thompson const int tx = threadIdx.x; 136db2becc9SJeremy L Thompson const int ty = threadIdx.y; 137db2becc9SJeremy L Thompson const int elem_id = (blockIdx.x * blockDim.y) + ty; 138db2becc9SJeremy L Thompson 139db2becc9SJeremy L Thompson if (elem_id >= nelem) return; 140db2becc9SJeremy L Thompson 141db2becc9SJeremy L Thompson CeedScalar *sU[BASIS_NUM_COMP]; 142db2becc9SJeremy L Thompson CeedScalar *sV[BASIS_NUM_COMP]; 143db2becc9SJeremy L Thompson 144db2becc9SJeremy L Thompson // shift global memory pointers by elem stride 145db2becc9SJeremy L Thompson dU += elem_id * estrdU; 146db2becc9SJeremy L Thompson dV += elem_id * estrdV; 147db2becc9SJeremy L Thompson 148db2becc9SJeremy L Thompson // assign shared memory pointers 149db2becc9SJeremy L Thompson CeedScalar *sT = (CeedScalar *)shared_data; 150db2becc9SJeremy L Thompson CeedScalar *sW = sT + BASIS_Q * BASIS_P; 151db2becc9SJeremy L Thompson sU[0] = sW + ty * BASIS_NUM_COMP * (BASIS_Q + BASIS_P); 152db2becc9SJeremy L Thompson sV[0] = sU[0] + (BASIS_NUM_COMP * 1 * BASIS_Q); 153db2becc9SJeremy L Thompson for (int comp = 1; comp < BASIS_NUM_COMP; comp++) { 154db2becc9SJeremy L Thompson sU[comp] = sU[comp - 1] + (1 * BASIS_Q); 155db2becc9SJeremy L Thompson sV[comp] = sV[comp - 1] + (1 * BASIS_P); 156db2becc9SJeremy L Thompson } 157db2becc9SJeremy L Thompson 158db2becc9SJeremy L Thompson // read T 159db2becc9SJeremy L Thompson if (ty == 0) { 160db2becc9SJeremy L Thompson read_T_trans_gm2sm<BASIS_Q, BASIS_P>(tx, dT, sT); 161db2becc9SJeremy L Thompson } 162db2becc9SJeremy L Thompson 163db2becc9SJeremy L Thompson // read U 164db2becc9SJeremy L Thompson read_1d<CeedScalar, BASIS_Q, BASIS_NUM_COMP>(dU, cstrdU, sU, tx); 165db2becc9SJeremy L Thompson 166db2becc9SJeremy L Thompson __syncthreads(); 167db2becc9SJeremy L Thompson magma_interp_1d_device<CeedScalar, BASIS_DIM, BASIS_NUM_COMP, BASIS_Q, BASIS_P>(sT, sU, sV, tx); 168db2becc9SJeremy L Thompson __syncthreads(); 169db2becc9SJeremy L Thompson 170db2becc9SJeremy L Thompson // sum into V 171db2becc9SJeremy L Thompson sum_1d<CeedScalar, BASIS_P, BASIS_NUM_COMP>(sV, dV, cstrdV, tx); 172db2becc9SJeremy L Thompson } 173