/****************************************************************************** * Copyright (c) 2024 Advanced Micro Devices, Inc. All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. *****************************************************************************/ using namespace rocshmem; roc_shmem_team_t team_fcollect_world_dup; /* Declare the template with a generic implementation */ template __device__ void wg_fcollect(roc_shmem_ctx_t ctx, roc_shmem_team_t team, T *dest, const T *source, int nelems) { return; } /* Define templates to call ROC_SHMEM */ #define FCOLLECT_DEF_GEN(T, TNAME) \ template <> \ __device__ void wg_fcollect(roc_shmem_ctx_t ctx, roc_shmem_team_t team, \ T * dest, const T *source, int nelem) { \ roc_shmem_ctx_##TNAME##_wg_fcollect(ctx, team, dest, source, nelem); \ } FCOLLECT_DEF_GEN(float, float) FCOLLECT_DEF_GEN(double, double) FCOLLECT_DEF_GEN(char, char) // FCOLLECT_DEF_GEN(long double, longdouble) FCOLLECT_DEF_GEN(signed char, schar) FCOLLECT_DEF_GEN(short, short) FCOLLECT_DEF_GEN(int, int) FCOLLECT_DEF_GEN(long, long) FCOLLECT_DEF_GEN(long long, longlong) FCOLLECT_DEF_GEN(unsigned char, uchar) FCOLLECT_DEF_GEN(unsigned short, ushort) FCOLLECT_DEF_GEN(unsigned int, uint) FCOLLECT_DEF_GEN(unsigned long, ulong) FCOLLECT_DEF_GEN(unsigned long long, ulonglong) /****************************************************************************** * DEVICE TEST KERNEL *****************************************************************************/ template __global__ void FcollectTest(int loop, int skip, uint64_t *timer, T1 *source_buf, T1 *dest_buf, int size, ShmemContextType ctx_type, roc_shmem_team_t team) { __shared__ roc_shmem_ctx_t ctx; roc_shmem_wg_init(); roc_shmem_wg_ctx_create(ctx_type, &ctx); int n_pes = roc_shmem_ctx_n_pes(ctx); __syncthreads(); uint64_t start; for (int i = 0; i < loop + skip; i++) { if (i == skip && hipThreadIdx_x == 0) { start = roc_shmem_timer(); } wg_fcollect(ctx, team, dest_buf, // T* dest source_buf, // const T* source size); // int nelement } __syncthreads(); if (hipThreadIdx_x == 0) { timer[hipBlockIdx_x] = roc_shmem_timer() - start; } roc_shmem_wg_ctx_destroy(&ctx); roc_shmem_wg_finalize(); } /****************************************************************************** * HOST TESTER CLASS METHODS *****************************************************************************/ template FcollectTester::FcollectTester( TesterArguments args, std::function f1, std::function(const T1 &, T1)> f2) : Tester(args), init_buf{f1}, verify_buf{f2} { int n_pes = roc_shmem_team_n_pes(ROC_SHMEM_TEAM_WORLD); source_buf = (T1 *)roc_shmem_malloc(args.max_msg_size * sizeof(T1)); dest_buf = (T1 *)roc_shmem_malloc(args.max_msg_size * sizeof(T1) * n_pes); } template FcollectTester::~FcollectTester() { roc_shmem_free(source_buf); roc_shmem_free(dest_buf); } template void FcollectTester::preLaunchKernel() { int n_pes = roc_shmem_team_n_pes(ROC_SHMEM_TEAM_WORLD); bw_factor = sizeof(T1) * n_pes; team_fcollect_world_dup = ROC_SHMEM_TEAM_INVALID; roc_shmem_team_split_strided(ROC_SHMEM_TEAM_WORLD, 0, 1, n_pes, nullptr, 0, &team_fcollect_world_dup); } template void FcollectTester::launchKernel(dim3 gridSize, dim3 blockSize, int loop, uint64_t size) { size_t shared_bytes = 0; hipLaunchKernelGGL(FcollectTest, gridSize, blockSize, shared_bytes, stream, loop, args.skip, timer, source_buf, dest_buf, size, _shmem_context, team_fcollect_world_dup); num_msgs = loop + args.skip; num_timed_msgs = loop; } template void FcollectTester::postLaunchKernel() { roc_shmem_team_destroy(team_fcollect_world_dup); } template void FcollectTester::resetBuffers(uint64_t size) { int n_pes = roc_shmem_team_n_pes(ROC_SHMEM_TEAM_WORLD); for (int i = 0; i < n_pes; i++) { for (int j = 0; j < size; j++) { // Note: This is redundant work, // source is being reinitialized multiple times init_buf(source_buf[j], dest_buf[i * size + j]); } } } template void FcollectTester::verifyResults(uint64_t size) { int n_pes = roc_shmem_team_n_pes(ROC_SHMEM_TEAM_WORLD); for (int i = 0; i < n_pes; i++) { for (int j = 0; j < size; j++) { auto r = verify_buf(dest_buf[i * size + j], i); if (r.first == false) { fprintf(stderr, "Data validation error at idx %d\n", j); fprintf(stderr, "%s.\n", r.second.c_str()); // exit(-1); return; } } } }