/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #include "paddle/fluid/memory/memcpy.h" #include "paddle/fluid/platform/device/device_wrapper.h" #include "paddle/fluid/platform/device_context.h" #include "paddle/fluid/platform/profiler.h" #include "paddle/pten/common/place.h" namespace paddle { namespace memory { template <> void Copy(platform::CPUPlace, void* dst, platform::CPUPlace, const void* src, size_t num) { if (UNLIKELY(num == 0)) return; VLOG(4) << "src: " << src << ", dst: " << dst << ", num: " << num; std::memcpy(dst, src, num); } #ifdef PADDLE_WITH_IPU template <> void Copy(platform::IPUPlace dst_place, void* dst, platform::CPUPlace src_place, const void* src, size_t num) { if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy(platform::CPUPlace dst_place, void* dst, platform::IPUPlace src_place, const void* src, size_t num) { if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy(platform::IPUPlace dst_place, void* dst, platform::IPUPlace src_place, const void* src, size_t num) { if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } // NOTE: only for CPUPlace and IPUPlace. template <> void Copy(pten::Place dst_place, void* dst, pten::Place src_place, const void* src, size_t num) { if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst, place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::IPU) { platform::IPUPlace place_dst(dst_place.GetDeviceId()); platform::CPUPlace place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::IPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::IPUPlace place_src(src_place.GetDeviceId()); platform::CPUPlace place_dst; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::IPU && dst_place.GetType() == pten::AllocationType::IPU) { platform::IPUPlace place_src(src_place.GetDeviceId()); platform::IPUPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num); } } // NOTE: only for (CPUPlace and IPUPlace) -> (IPUPlace). template <> void Copy(pten::IPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num) { if (src_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_src; return Copy(dst_place, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::IPU) { platform::IPUPlace place_src(src_place.GetDeviceId()); return Copy(dst_place, dst, place_src, src, num); } } // NOTE: only for (IPUPlace) -> (CPUPlace and IPUPlace). template <> void Copy(pten::Place dst_place, void* dst, pten::IPUPlace src_place, const void* src, size_t num) { if (dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst; return Copy(place_dst, dst, src_place, src, num); } else if (dst_place.GetType() == pten::AllocationType::IPU) { platform::IPUPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, src_place, src, num); } } #endif #ifdef PADDLE_WITH_XPU template <> void Copy(platform::XPUPlace dst_place, void* dst, platform::CPUPlace src_place, const void* src, size_t num) { if (num <= 0) { VLOG(1) << "memcpy XPU_HOST_TO_DEVICE size <= 0 (" << num << ")"; return; } platform::MemcpySyncH2D(dst, src, num, dst_place); } template <> void Copy(platform::CPUPlace dst_place, void* dst, platform::XPUPlace src_place, const void* src, size_t num) { if (num <= 0) { VLOG(1) << "memcpy XPU_DEVICE_TO_HOST size <= 0 (" << num << ")"; return; } platform::MemcpySyncD2H(dst, src, num, src_place); } template <> void Copy(platform::XPUPlace dst_place, void* dst, platform::XPUPlace src_place, const void* src, size_t num) { if (num <= 0) { VLOG(1) << "memcpy XPU_DEVICE_TO_DEVICE size <= 0 (" << num << ")"; return; } platform::MemcpySyncD2D(dst, dst_place, src, src_place, num); } // NOTE: only for (CPUPlace and XPUPlace) -> (XPUPlace). template <> void Copy(pten::XPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num) { if (src_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_src; return Copy(dst_place, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::XPU) { platform::XPUPlace place_src(src_place.GetDeviceId()); return Copy(dst_place, dst, place_src, src, num); } } // NOTE: only for (XPUPlace) -> (CPUPlace and XPUPlace). template <> void Copy(pten::Place dst_place, void* dst, pten::XPUPlace src_place, const void* src, size_t num) { if (dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst; return Copy(place_dst, dst, src_place, src, num); } else if (dst_place.GetType() == pten::AllocationType::XPU) { platform::XPUPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, src_place, src, num); } } #endif #ifdef PADDLE_WITH_ASCEND_CL template <> void Copy(platform::NPUPlace dst_place, void* dst, platform::CPUPlace src_place, const void* src, size_t num, aclrtStream stream) { if (UNLIKELY(num == 0)) return; platform::SetNPUDeviceId(dst_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by thream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("NpuMemcpyAsync:CPU->NPU"); platform::NPUMemcpyAsync(dst, src, num, ACL_MEMCPY_HOST_TO_DEVICE, stream); } else { // On NPU, async operation after sync operation is ok, while sync operation // after async is not ok, since the async operation may not done. // So, its needed to do wait before sync operation. platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(dst_place))->Wait(); platform::RecordEvent record_event("NpuMemcpySync:CPU->NPU"); platform::NPUMemcpySync(dst, src, num, ACL_MEMCPY_HOST_TO_DEVICE); } } template <> void Copy(platform::CPUPlace dst_place, void* dst, platform::NPUPlace src_place, const void* src, size_t num, aclrtStream stream) { if (UNLIKELY(num == 0)) return; platform::SetNPUDeviceId(src_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by thream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("NpuMemcpyAsync:NPU->CPU"); platform::NPUMemcpyAsync(dst, src, num, ACL_MEMCPY_DEVICE_TO_HOST, stream); } else { platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(src_place))->Wait(); platform::RecordEvent record_event("NpuMemcpySync:NPU->CPU"); platform::NPUMemcpySync(dst, src, num, ACL_MEMCPY_DEVICE_TO_HOST); } } template <> void Copy(platform::NPUPlace dst_place, void* dst, platform::NPUPlace src_place, const void* src, size_t num, aclrtStream stream) { if (UNLIKELY(num == 0)) return; VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by stream(" << stream << ")"; if (dst_place == src_place) { platform::SetNPUDeviceId(src_place.device); if (stream) { platform::RecordEvent record_event("NpuMemcpyAsync(same_npu):NPU->NPU"); platform::NPUMemcpyAsync(dst, src, num, ACL_MEMCPY_DEVICE_TO_DEVICE, stream); } else { platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(dst_place))->Wait(); platform::RecordEvent record_event("NpuMemcpySync(same_npu):NPU->NPU"); platform::NPUMemcpySync(dst, src, num, ACL_MEMCPY_DEVICE_TO_DEVICE); } } else { if (!platform::NPUCanAccessPeer(dst_place.device, dst_place.device)) { PADDLE_THROW(platform::errors::Unavailable( "Peer access between NPU places is not allowed.")); } if (stream) { // TODO(zhiqiu): support peer access? platform::RecordEvent record_event("NpuMemcpyPeerAsync:NPU->NPU"); platform::NPUMemcpyAsync(dst, src, num, ACL_MEMCPY_DEVICE_TO_DEVICE, stream); } else { platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(dst_place))->Wait(); platform::RecordEvent record_event("NpuMemcpyPeerSync:NPU->NPU"); platform::NPUMemcpySync(dst, src, num, ACL_MEMCPY_DEVICE_TO_DEVICE); } } } template <> void Copy( platform::CPUPlace dst_place, void* dst, platform::NPUPinnedPlace src_place, const void* src, size_t num) { VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy( platform::NPUPinnedPlace dst_place, void* dst, platform::CPUPlace src_place, const void* src, size_t num) { VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy( platform::NPUPinnedPlace dst_place, void* dst, platform::NPUPinnedPlace src_place, const void* src, size_t num) { VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy( platform::NPUPinnedPlace dst_place, void* dst, platform::NPUPlace src_place, const void* src, size_t num, aclrtStream stream) { if (UNLIKELY(num == 0)) return; platform::SetNPUDeviceId(src_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by thream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("NpuMemcpyAsync:NPU->NPUPinned"); platform::NPUMemcpyAsync(dst, src, num, ACL_MEMCPY_DEVICE_TO_HOST, stream); } else { platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(src_place))->Wait(); platform::RecordEvent record_event("NpuMemcpySync:NPU->NPUPinned"); platform::NPUMemcpySync(dst, src, num, ACL_MEMCPY_DEVICE_TO_HOST); } } template <> void Copy( platform::NPUPlace dst_place, void* dst, platform::NPUPinnedPlace src_place, const void* src, size_t num, aclrtStream stream) { if (UNLIKELY(num == 0)) return; platform::SetNPUDeviceId(dst_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by thream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("NpuMemcpyAsync:NPUPinned->NPU"); platform::NPUMemcpyAsync(dst, src, num, ACL_MEMCPY_HOST_TO_DEVICE, stream); } else { // On NPU, async operation after sync operation is ok, while sync operation // after async is not ok, since the async operation may not done. // So, its needed to do wait before sync operation. platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(dst_place))->Wait(); platform::RecordEvent record_event("NpuMemcpySync:NPUPinned->NPU"); platform::NPUMemcpySync(dst, src, num, ACL_MEMCPY_HOST_TO_DEVICE); } } // NOTE: only for CPUPlace, NPUPlace and NPUPinnedPlace. template <> void Copy(pten::Place dst_place, void* dst, pten::Place src_place, const void* src, size_t num, aclrtStream stream) { if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst, place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::NPU) { platform::NPUPlace place_dst(dst_place.GetDeviceId()); platform::CPUPlace place_src; return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::NPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::NPUPlace place_src(src_place.GetDeviceId()); platform::CPUPlace place_dst; return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::NPU && dst_place.GetType() == pten::AllocationType::NPU) { platform::NPUPlace place_src(src_place.GetDeviceId()); platform::NPUPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::NPUPINNED) { platform::CPUPlace place_src; platform::NPUPinnedPlace place_dst; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::NPUPINNED && dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst; platform::NPUPinnedPlace place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::NPUPINNED && dst_place.GetType() == pten::AllocationType::NPUPINNED) { platform::NPUPinnedPlace place_dst; platform::NPUPinnedPlace place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::NPUPINNED && dst_place.GetType() == pten::AllocationType::NPU) { platform::NPUPinnedPlace place_src; platform::NPUPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::NPU && dst_place.GetType() == pten::AllocationType::NPUPINNED) { platform::NPUPinnedPlace place_dst; platform::NPUPlace place_src(src_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num, stream); } } // NOTE: only for (CPUPlace, NPUPlace and NPUPinnedPlace) -> (CPUPlace). template <> void Copy(pten::CPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, aclrtStream stream) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num, stream); } // NOTE: only for (CPUPlace) -> (CPUPlace, NPUPlace and NPUPinnedPlace). template <> void Copy(pten::Place dst_place, void* dst, pten::CPUPlace src_place, const void* src, size_t num, aclrtStream stream) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num, stream); } // NOTE: only for (CPUPlace, NPUPlace and NPUPinnedPlace) -> (NPUPlace) template <> void Copy(pten::NPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, aclrtStream stream) { Copy(pten::Place(dst_place.GetType(), dst_place.GetDeviceId()), dst, src_place, src, num, stream); } // NOTE: only for (NPUPlace) -> (CPUPlace, NPUPlace and NPUPinnedPlace) template <> void Copy(pten::Place dst_place, void* dst, pten::NPUPlace src_place, const void* src, size_t num, aclrtStream stream) { Copy(dst_place, dst, pten::Place(src_place.GetType(), src_place.GetDeviceId()), src, num, stream); } // NOTE: only for (CPUPlace, NPUPlace and NPUPinnedPlace) -> (NPUPinnedPlace) template <> void Copy(pten::NPUPinnedPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, aclrtStream stream) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num, stream); } // NOTE: only for (NPUPinnedPlace) -> (CPUPlace, NPUPlace and NPUPinnedPlace) template <> void Copy(pten::Place dst_place, void* dst, pten::NPUPinnedPlace src_place, const void* src, size_t num, aclrtStream stream) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num, stream); } // NOTE: only for (CPUPlace) -> (NPUPinnedPlace) template <> void Copy(pten::NPUPinnedPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num, nullptr); } // NOTE: only for (NPUPinnedPlace) -> (CPUPlace) template <> void Copy(pten::Place dst_place, void* dst, pten::NPUPinnedPlace src_place, const void* src, size_t num) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num, nullptr); } #endif #if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP) static constexpr size_t kMaxGpuAsyncCopyBytes = 64 * 1024; // 64K #ifdef PADDLE_WITH_HIP inline void SyncCUDAStream() { #if !defined(_WIN32) hipStreamSynchronize(0); #else hipError_t e_sync = hipSuccess; while (e_sync = hipStreamQuery(0)) { if (e_sync == hipErrorNotReady) continue; break; } #endif } #else inline void SyncCUDAStream() { #if !defined(_WIN32) cudaStreamSynchronize(0); #else cudaError_t e_sync = cudaSuccess; while (e_sync = cudaStreamQuery(0)) { if (e_sync == cudaErrorNotReady) continue; break; } #endif } #endif // NOTE(zcd): Do not use GpuMemcpySync as much as possible. // because GpuMemcpySync issues the copying command to the default stream, // which will make two commands from different streams cannot run concurrently. // Reference: // https://devblogs.nvidia.com/gpu-pro-tip-cuda-7-streams-simplify-concurrency/ template <> void Copy( platform::CPUPlace dst_place, void* dst, platform::CUDAPlace src_place, const void* src, size_t num, gpuStream_t stream) { if (UNLIKELY(num == 0)) return; platform::SetDeviceId(src_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by stream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("GpuMemcpyAsync:GPU->CPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpyAsync(dst, src, num, hipMemcpyDeviceToHost, stream); #else platform::GpuMemcpyAsync(dst, src, num, cudaMemcpyDeviceToHost, stream); #endif } else { platform::RecordEvent record_event("GpuMemcpySync:GPU->CPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpySync(dst, src, num, hipMemcpyDeviceToHost); #else platform::GpuMemcpySync(dst, src, num, cudaMemcpyDeviceToHost); #endif // FIXME(zjl): do we really need it? if (num <= kMaxGpuAsyncCopyBytes) { SyncCUDAStream(); } } } template <> void Copy( platform::CUDAPlace dst_place, void* dst, platform::CPUPlace src_place, const void* src, size_t num, gpuStream_t stream) { if (UNLIKELY(num == 0)) return; platform::SetDeviceId(dst_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by thream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("GpuMemcpyAsync:CPU->GPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpyAsync(dst, src, num, hipMemcpyHostToDevice, stream); #else platform::GpuMemcpyAsync(dst, src, num, cudaMemcpyHostToDevice, stream); #endif } else { platform::RecordEvent record_event("GpuMemcpySync:CPU->GPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpySync(dst, src, num, hipMemcpyHostToDevice); #else platform::GpuMemcpySync(dst, src, num, cudaMemcpyHostToDevice); #endif // FIXME(zjl): do we really need it? if (num <= kMaxGpuAsyncCopyBytes) { SyncCUDAStream(); } } } template <> void Copy( platform::CUDAPlace dst_place, void* dst, platform::CUDAPlace src_place, const void* src, size_t num, gpuStream_t stream) { if (UNLIKELY(num == 0)) return; VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by stream(" << stream << ")"; if (dst_place == src_place) { platform::SetDeviceId(src_place.device); if (stream) { platform::RecordEvent record_event("GpuMemcpyAsync(same_gpu):GPU->GPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpyAsync(dst, src, num, hipMemcpyDeviceToDevice, stream); #else platform::GpuMemcpyAsync(dst, src, num, cudaMemcpyDeviceToDevice, stream); #endif } else { platform::RecordEvent record_event("GpuMemcpySync(same_gpu):GPU->GPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpySync(dst, src, num, hipMemcpyDeviceToDevice); #else platform::GpuMemcpySync(dst, src, num, cudaMemcpyDeviceToDevice); #endif } } else { if (stream) { platform::RecordEvent record_event("GpuMemcpyPeerAsync:GPU->GPU"); platform::GpuMemcpyPeerAsync(dst, dst_place.device, src, src_place.device, num, stream); } else { platform::RecordEvent record_event("GpuMemcpyPeerSync:GPU->GPU"); platform::GpuMemcpyPeerSync(dst, dst_place.device, src, src_place.device, num); } } } template <> void Copy( platform::CPUPlace dst_place, void* dst, platform::CUDAPinnedPlace src_place, const void* src, size_t num) { VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy( platform::CUDAPinnedPlace dst_place, void* dst, platform::CPUPlace src_place, const void* src, size_t num) { VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy( platform::CUDAPinnedPlace dst_place, void* dst, platform::CUDAPinnedPlace src_place, const void* src, size_t num) { VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; if (UNLIKELY(num == 0)) return; std::memcpy(dst, src, num); } template <> void Copy( platform::CUDAPinnedPlace dst_place, void* dst, platform::CUDAPlace src_place, const void* src, size_t num, gpuStream_t stream) { if (UNLIKELY(num == 0)) return; platform::SetDeviceId(src_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by thream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("GpuMemcpyAsync:GPU->CUDAPinned"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpyAsync(dst, src, num, hipMemcpyDeviceToHost, stream); #else platform::GpuMemcpyAsync(dst, src, num, cudaMemcpyDeviceToHost, stream); #endif } else { platform::RecordEvent record_event("GpuMemcpySync:GPU->CUDAPinned"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpySync(dst, src, num, hipMemcpyDeviceToHost); #else platform::GpuMemcpySync(dst, src, num, cudaMemcpyDeviceToHost); #endif } } template <> void Copy( platform::CUDAPlace dst_place, void* dst, platform::CUDAPinnedPlace src_place, const void* src, size_t num, gpuStream_t stream) { if (UNLIKELY(num == 0)) return; platform::SetDeviceId(dst_place.device); VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by thream(" << stream << ")"; if (stream) { platform::RecordEvent record_event("GpuMemcpyAsync:CUDAPinned->GPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpyAsync(dst, src, num, hipMemcpyHostToDevice, stream); #else platform::GpuMemcpyAsync(dst, src, num, cudaMemcpyHostToDevice, stream); #endif } else { platform::RecordEvent record_event("GpuMemcpySync:CUDAPinned->GPU"); #ifdef PADDLE_WITH_HIP platform::GpuMemcpySync(dst, src, num, hipMemcpyHostToDevice); #else platform::GpuMemcpySync(dst, src, num, cudaMemcpyHostToDevice); #endif } } // NOTE: only for CPUPlace、CUDAPlace and CUDAPinnedPlace. template <> void Copy(pten::Place dst_place, void* dst, pten::Place src_place, const void* src, size_t num, gpuStream_t stream) { if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst, place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::GPU) { platform::CUDAPlace place_dst(dst_place.GetDeviceId()); platform::CPUPlace place_src; return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::GPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::CUDAPlace place_src(src_place.GetDeviceId()); platform::CPUPlace place_dst; return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::GPU && dst_place.GetType() == pten::AllocationType::GPU) { platform::CUDAPlace place_src(src_place.GetDeviceId()); platform::CUDAPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::GPUPINNED) { platform::CPUPlace place_src; platform::CUDAPinnedPlace place_dst; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::GPUPINNED && dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst; platform::CUDAPinnedPlace place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::GPUPINNED && dst_place.GetType() == pten::AllocationType::GPUPINNED) { platform::CUDAPinnedPlace place_dst; platform::CUDAPinnedPlace place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::GPUPINNED && dst_place.GetType() == pten::AllocationType::GPU) { platform::CUDAPinnedPlace place_src; platform::CUDAPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::GPU && dst_place.GetType() == pten::AllocationType::GPUPINNED) { platform::CUDAPinnedPlace place_dst; platform::CUDAPlace place_src(src_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num, stream); } } // NOTE: only for (CPUPlace, CUDAPlace and CUDAPinnedPlace) -> (CPUPlace). template <> void Copy(pten::CPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, gpuStream_t stream) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num, stream); } // NOTE: only for (CPUPlace) -> (CPUPlace, CUDAPlace and CUDAPinnedPlace). template <> void Copy(pten::Place dst_place, void* dst, pten::CPUPlace src_place, const void* src, size_t num, gpuStream_t stream) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num, stream); } // NOTE: only for (CPUPlace, CUDAPlace and CUDAPinnedPlace) -> (CUDAPlace) template <> void Copy(pten::GPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, gpuStream_t stream) { Copy(pten::Place(dst_place.GetType(), dst_place.GetDeviceId()), dst, src_place, src, num, stream); } // NOTE: only for (CUDAPlace) -> (CPUPlace, CUDAPlace and CUDAPinnedPlace) template <> void Copy(pten::Place dst_place, void* dst, pten::GPUPlace src_place, const void* src, size_t num, gpuStream_t stream) { Copy(dst_place, dst, pten::Place(src_place.GetType(), src_place.GetDeviceId()), src, num, stream); } // NOTE: only for (CPUPlace, CUDAPlace and CUDAPinnedPlace) -> (CUDAPinnedPlace) template <> void Copy(pten::GPUPinnedPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, gpuStream_t stream) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num, stream); } // NOTE: only for (CUDAPinnedPlace) -> (CPUPlace, CUDAPlace and CUDAPinnedPlace) template <> void Copy(pten::Place dst_place, void* dst, pten::GPUPinnedPlace src_place, const void* src, size_t num, gpuStream_t stream) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num, stream); } // NOTE: only for (CPUPlace) -> (CUDAPinnedPlace) template <> void Copy(pten::GPUPinnedPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num, nullptr); } // NOTE: only for (CUDAPinnedPlace) -> (CPUPlace) template <> void Copy(pten::Place dst_place, void* dst, pten::GPUPinnedPlace src_place, const void* src, size_t num) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num, nullptr); } #endif #ifdef PADDLE_WITH_MLU template <> void Copy(platform::CPUPlace dst_place, void* dst, platform::MLUPlace src_place, const void* src, size_t num, mluStream stream) { if (UNLIKELY(num == 0)) return; platform::SetMLUDeviceId(src_place.device); if (stream) { VLOG(4) << "Async memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by mlu stream(" << stream << ")"; platform::RecordEvent record_event("MLUMemcpyD2HAsync:MLU->CPU"); platform::MLUMemcpyD2HAsync(dst, src, num, stream); } else { platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(src_place))->Wait(); VLOG(4) << "Sync memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; platform::RecordEvent record_event("MLUMemcpyD2HSync:MLU->CPU"); platform::MLUMemcpyD2HSync(dst, src, num); } } template <> void Copy(platform::MLUPlace dst_place, void* dst, platform::CPUPlace src_place, const void* src, size_t num, mluStream stream) { if (UNLIKELY(num == 0)) return; platform::SetMLUDeviceId(dst_place.device); if (stream) { VLOG(4) << "Async memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by mlu stream(" << stream << ")"; platform::RecordEvent record_event("MLUMemcpyH2DAsync:CPU->MLU"); platform::MLUMemcpyH2DAsync(dst, src, num, stream); } else { platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(src_place))->Wait(); VLOG(4) << "Sync memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; platform::RecordEvent record_event("MLUMemcpyH2DSync:CPU->MLU"); platform::MLUMemcpyH2DSync(dst, src, num); } } template <> void Copy(platform::MLUPlace dst_place, void* dst, platform::MLUPlace src_place, const void* src, size_t num, mluStream stream) { if (UNLIKELY(num == 0)) return; if (dst_place == src_place) { platform::SetMLUDeviceId(dst_place.device); if (stream) { VLOG(4) << "Async memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by mlu stream(" << stream << ")"; platform::RecordEvent record_event( "MLUMemcpyD2DAsync(same_mlu):MLU->MLU"); platform::MLUMemcpyD2DAsync(dst, src, num, stream); } else { platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance(); static_cast(pool.Get(src_place))->Wait(); VLOG(4) << "Sync memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; platform::RecordEvent record_event("MLUMemcpyD2DSync(same_mlu):MLU->MLU"); platform::MLUMemcpyD2DSync(dst, src, num); } } else { if (stream) { VLOG(4) << "Async memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place << " by mlu stream(" << stream << ")"; platform::RecordEvent record_event("MLUMemcpyPeerAsync:MLU->MLU"); platform::MLUMemcpyPeerAsync(dst, dst_place.device, src, src_place.device, num, stream); } else { VLOG(4) << "Sync memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; platform::RecordEvent record_event("MLUMemcpyPeerSync:MLU->MLU"); platform::MLUMemcpyPeerSync(dst, dst_place.device, src, src_place.device, num); } } } // NOTE: only for CPUPlace and MLUPlace. template <> void Copy(pten::Place dst_place, void* dst, pten::Place src_place, const void* src, size_t num, mluStream stream) { if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst, place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::MLU) { platform::MLUPlace place_dst(dst_place.GetDeviceId()); platform::CPUPlace place_src; return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::MLU && dst_place.GetType() == pten::AllocationType::CPU) { platform::MLUPlace place_src(src_place.GetDeviceId()); platform::CPUPlace place_dst; return Copy(place_dst, dst, place_src, src, num, stream); } else if (src_place.GetType() == pten::AllocationType::MLU && dst_place.GetType() == pten::AllocationType::MLU) { platform::MLUPlace place_src(src_place.GetDeviceId()); platform::MLUPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num, stream); } } // NOTE: only for (CPUPlace and MLUPlace) -> (MLUPlace) template <> void Copy(pten::MLUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, mluStream stream) { Copy(pten::Place(dst_place.GetType(), dst_place.GetDeviceId()), dst, src_place, src, num, stream); } // NOTE: only for (MLUPlace) -> (CPUPlace and MLUPlace) template <> void Copy(pten::Place dst_place, void* dst, pten::MLUPlace src_place, const void* src, size_t num, mluStream stream) { Copy(dst_place, dst, pten::Place(src_place.GetType(), src_place.GetDeviceId()), src, num, stream); } // NOTE: only for (MLUPlace) -> (CPUPlace) with mluStream. template <> void Copy(pten::CPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num, mluStream stream) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num, stream); } // NOTE: only for (CPUPlace) -> (MLUPlace) with mluStream. template <> void Copy(pten::Place dst_place, void* dst, pten::CPUPlace src_place, const void* src, size_t num, mluStream stream) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num, stream); } #endif // PADDLE_WITH_MLU // NOTE: Only for CPUPlace, XPUPlace and PinnedPlace. template <> void Copy(pten::Place dst_place, void* dst, pten::Place src_place, const void* src, size_t num) { if (UNLIKELY(num == 0)) return; VLOG(4) << "memory::Copy " << num << " Bytes from " << src_place << " to " << dst_place; if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::CPU) { std::memcpy(dst, src, num); } #if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP) else if (src_place.GetType() == pten::AllocationType::CPU && // NOLINT dst_place.GetType() == pten::AllocationType::GPUPINNED) { std::memcpy(dst, src, num); } else if (src_place.GetType() == pten::AllocationType::GPUPINNED && dst_place.GetType() == pten::AllocationType::CPU) { std::memcpy(dst, src, num); } else if (src_place.GetType() == pten::AllocationType::GPUPINNED && dst_place.GetType() == pten::AllocationType::GPUPINNED) { std::memcpy(dst, src, num); } #endif #ifdef PADDLE_WITH_ASCEND_CL else if (src_place.GetType() == pten::AllocationType::CPU && // NOLINT dst_place.GetType() == pten::AllocationType::NPUPINNED) { std::memcpy(dst, src, num); } else if (src_place.GetType() == pten::AllocationType::NPUPINNED && dst_place.GetType() == pten::AllocationType::CPU) { std::memcpy(dst, src, num); } else if (src_place.GetType() == pten::AllocationType::NPUPINNED && dst_place.GetType() == pten::AllocationType::NPUPINNED) { std::memcpy(dst, src, num); } #endif #ifdef PADDLE_WITH_XPU else if (src_place.GetType() == pten::AllocationType::CPU && // NOLINT dst_place.GetType() == pten::AllocationType::CPU) { platform::CPUPlace place_dst, place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::CPU && dst_place.GetType() == pten::AllocationType::XPU) { platform::XPUPlace place_dst(dst_place.GetDeviceId()); platform::CPUPlace place_src; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::XPU && dst_place.GetType() == pten::AllocationType::CPU) { platform::XPUPlace place_src(src_place.GetDeviceId()); platform::CPUPlace place_dst; return Copy(place_dst, dst, place_src, src, num); } else if (src_place.GetType() == pten::AllocationType::XPU && dst_place.GetType() == pten::AllocationType::XPU) { platform::XPUPlace place_src(src_place.GetDeviceId()); platform::XPUPlace place_dst(dst_place.GetDeviceId()); return Copy(place_dst, dst, place_src, src, num); } #endif } // NOTE: Only for (CPUPlace) -> (CPUPlace and PinnedPlace). template <> void Copy(pten::Place dst_place, void* dst, pten::CPUPlace src_place, const void* src, size_t num) { Copy(dst_place, dst, pten::Place(src_place.GetType()), src, num); } // NOTE: Only for (CPUPlace and PinnedPlace) -> (CPUPlace). template <> void Copy(pten::CPUPlace dst_place, void* dst, pten::Place src_place, const void* src, size_t num) { Copy(pten::Place(dst_place.GetType()), dst, src_place, src, num); } } // namespace memory } // namespace paddle