/****************************************************************************** * Copyright (c) Advanced Micro Devices, Inc. All rights reserved. * * SPDX-License-Identifier: MIT * * 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. *****************************************************************************/ /* Declare the template with a generic implementation */ template __device__ void wg_team_broadcast(rocshmem_ctx_t ctx, rocshmem_team_t team, T *dest, const T *source, int nelem, int pe_root) { return; } /* Define templates to call ROCSHMEM */ #define TEAM_BROADCAST_DEF_GEN(T, TNAME) \ template <> \ __device__ void wg_team_broadcast( \ rocshmem_ctx_t ctx, rocshmem_team_t team, T * dest, const T *source, \ int nelem, int pe_root) { \ rocshmem_ctx_##TNAME##_broadcast_wg(ctx, team, dest, source, nelem, \ pe_root); \ } TEAM_BROADCAST_DEF_GEN(float, float) TEAM_BROADCAST_DEF_GEN(double, double) TEAM_BROADCAST_DEF_GEN(char, char) // TEAM_BROADCAST_DEF_GEN(long double, longdouble) TEAM_BROADCAST_DEF_GEN(signed char, schar) TEAM_BROADCAST_DEF_GEN(short, short) TEAM_BROADCAST_DEF_GEN(int, int) TEAM_BROADCAST_DEF_GEN(long, long) TEAM_BROADCAST_DEF_GEN(long long, longlong) TEAM_BROADCAST_DEF_GEN(unsigned char, uchar) TEAM_BROADCAST_DEF_GEN(unsigned short, ushort) TEAM_BROADCAST_DEF_GEN(unsigned int, uint) TEAM_BROADCAST_DEF_GEN(unsigned long, ulong) TEAM_BROADCAST_DEF_GEN(unsigned long long, ulonglong) rocshmem_team_t team_bcast_world_dup; /****************************************************************************** * DEVICE TEST KERNEL *****************************************************************************/ template __global__ void TeamBroadcastTest(int loop, int skip, long long int *start_time, long long int *end_time, T1 *source_buf, T1 *dest_buf, int size, ShmemContextType ctx_type, rocshmem_team_t *teams) { __shared__ rocshmem_ctx_t ctx; int wg_id = get_flat_grid_id(); rocshmem_wg_team_create_ctx(teams[wg_id], ctx_type, &ctx); int n_pes = rocshmem_ctx_n_pes(ctx); source_buf += wg_id * size; dest_buf += wg_id * size; __syncthreads(); for (int i = 0; i < loop + skip; i++) { if (i == skip && hipThreadIdx_x == 0) { start_time[wg_id] = wall_clock64(); } wg_team_broadcast(ctx, teams[wg_id], dest_buf, // T* dest source_buf, // const T* source size, // int nelement 0); // int PE_root } __syncthreads(); if (hipThreadIdx_x == 0) { end_time[wg_id] = wall_clock64(); } rocshmem_wg_ctx_destroy(&ctx); } /****************************************************************************** * HOST TESTER CLASS METHODS *****************************************************************************/ template TeamBroadcastTester::TeamBroadcastTester(TesterArguments args) : Tester(args){ my_pe = rocshmem_team_my_pe(ROCSHMEM_TEAM_WORLD); n_pes = rocshmem_team_n_pes(ROCSHMEM_TEAM_WORLD); // Total number of elements in src buffer int total_elems = (args.max_msg_size / sizeof(T1)) * args.num_wgs ; int buff_size = total_elems * sizeof(T1); source_buf = (T1 *)rocshmem_malloc(buff_size); dest_buf = (T1 *)rocshmem_malloc(buff_size); if (source_buf == nullptr || dest_buf == nullptr) { std::cout << "Error allocating memory from symmetric heap" << std::endl; std::cout << "source: " << source_buf << ", dest: " << dest_buf << std::endl; rocshmem_global_exit(1); } char* value{nullptr}; if ((value = getenv("ROCSHMEM_MAX_NUM_TEAMS"))) { num_teams = atoi(value); } CHECK_HIP(hipMalloc(&team_bcast_world_dup, sizeof(rocshmem_team_t) * num_teams)); } template TeamBroadcastTester::~TeamBroadcastTester() { rocshmem_free(source_buf); rocshmem_free(dest_buf); CHECK_HIP(hipFree(team_bcast_world_dup)); } template void TeamBroadcastTester::preLaunchKernel() { for (int team_i = 0; team_i < num_teams; team_i++) { team_bcast_world_dup[team_i] = ROCSHMEM_TEAM_INVALID; rocshmem_team_split_strided(ROCSHMEM_TEAM_WORLD, 0, 1, n_pes, nullptr, 0, &team_bcast_world_dup[team_i]); if (team_bcast_world_dup[team_i] == ROCSHMEM_TEAM_INVALID) { printf("Team %d is invalid!\n", team_i); abort(); } } } template void TeamBroadcastTester::launchKernel(dim3 gridSize, dim3 blockSize, int loop, size_t size) { size_t shared_bytes = 0; int num_elems = size / sizeof(T1); hipLaunchKernelGGL(TeamBroadcastTest, gridSize, blockSize, shared_bytes, stream, loop, args.skip, start_time, end_time, source_buf, dest_buf, num_elems, _shmem_context, team_bcast_world_dup); num_msgs = (loop + args.skip) * gridSize.x; num_timed_msgs = loop * gridSize.x; } template void TeamBroadcastTester::postLaunchKernel() { for (int team_i = 0; team_i < num_teams; team_i++) { rocshmem_team_destroy(team_bcast_world_dup[team_i]); } } template void TeamBroadcastTester::resetBuffers(size_t size) { int num_elems = size / sizeof(T1); int buff_size = num_elems * sizeof(T1) * args.num_wgs; int idx = 0; for (int wg_id = 0; wg_id < args.num_wgs; wg_id++) { for (int i = 0; i < num_elems; i++) { idx = wg_id * num_elems + i; if constexpr (std::is_same::value || std::is_same::value || std::is_same::value) { source_buf[idx] = static_cast('a' + n_pes + wg_id); dest_buf[idx] = static_cast('a' + wg_id); } else if constexpr (std::is_floating_point::value) { source_buf[idx] = static_cast(3.14 + n_pes + wg_id); dest_buf[idx] = static_cast(3.14 + wg_id); } else if constexpr (std::is_integral::value) { source_buf[idx] = static_cast(n_pes + wg_id); dest_buf[idx] = static_cast(wg_id); } } } } template void TeamBroadcastTester::verifyResults(size_t size) { int num_elems = size / sizeof(T1); int idx = 0; T1 expected; /** * The verification routine here requires that the * PE_root value is 0 which denotes that the * sending processing element is rank 0. * * The difference in expected values arises from * the specification for broadcast where the * PE_root processing element does not copy the * contents from its own source to dest during * the broadcast. */ for (int wg_id = 0; wg_id < args.num_wgs; wg_id++) { for (int i = 0; i < num_elems; i++) { idx = wg_id * num_elems + i; if constexpr (std::is_same::value || std::is_same::value || std::is_same::value) { expected = static_cast('a' + wg_id + (my_pe ? n_pes : 0)); } else if constexpr (std::is_floating_point::value) { expected = static_cast(3.14 + wg_id + (my_pe ? n_pes : 0)); } else if constexpr (std::is_integral::value) { expected = static_cast(wg_id + (my_pe ? n_pes : 0)); } if (dest_buf[idx] != expected) { std::cerr << "Data validation error at idx " << idx << std::endl; std::cerr << "PE " << my_pe << " Got " << dest_buf[idx] << ", Expected " << expected << std::endl; exit(-1); } } } }