// Copyright (c) 2022 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/distributed/collective/ProcessGroupHCCL.h" #include "paddle/fluid/memory/malloc.h" #include "paddle/fluid/platform/device/npu/hccl_helper.h" #include "paddle/fluid/platform/device_context.h" #include "paddle/fluid/platform/place.h" #include "paddle/phi/api/include/api.h" #include "paddle/phi/common/place.h" DECLARE_bool(hccl_blocking_wait); // DECLARE_bool(use_stream_safe_npu_allocator); constexpr int64_t kWaitBlockTImeout = 10; namespace paddle { namespace distributed { static HcclReduceOp ToHCCLRedType(ReduceOp reduction) { static const std::map red_type = { {ReduceOp::MIN, HCCL_REDUCE_MIN}, {ReduceOp::MAX, HCCL_REDUCE_MAX}, {ReduceOp::SUM, HCCL_REDUCE_SUM}, {ReduceOp::PRODUCT, HCCL_REDUCE_PROD}, }; auto it = red_type.find(reduction); PADDLE_ENFORCE_EQ( it != red_type.end(), true, platform::errors::InvalidArgument("Invalid hccl reduction. " "Must be Min | Max | Prod | Sum")); return it->second; } std::string SerializeHCCLUniqueId(const HcclRootInfo& hcclID) { const uint8_t* bytes = reinterpret_cast(&hcclID); std::ostringstream oss; for (size_t i = 0; i < sizeof(hcclID); ++i) { oss << std::hex << static_cast(bytes[i]); } return oss.str(); } // Get the list of devices from list of tensors std::vector GetPlaceList(const std::vector& tensors) { std::vector places; places.reserve(tensors.size()); for (auto& tensor : tensors) { places.push_back(tensor.inner_place()); } return places; } // Get the deviceList String from the list of devices std::string GetKeyFromPlaces(const std::vector& places) { std::string placeList; for (auto& place : places) { std::stringstream tmp; tmp << place; if (placeList.empty()) { placeList += tmp.str(); } else { placeList += "," + tmp.str(); } } return placeList; } // bool CheckTensorsInNPUPlace(const std::vector& tensors) { // return std::all_of(tensors.cbegin(), tensors.cend(), [&](const Tensor& t) { // return t.place() == platform::DeviceType::NPU; // }); // } void SyncDefaultStream( const std::vector& places, std::vector& hcclEvents, // NOLINT std::vector>& dev_ctx) { // NOLINT for (size_t i = 0; i < places.size(); ++i) { auto* default_ctx = static_cast( platform::DeviceContextPool::Instance().Get(places[i])); hcclEvents[i].Record(*dev_ctx[i]); hcclEvents[i].Block(*default_ctx); } } std::shared_ptr ProcessGroupHCCL::CreateTask( std::vector places, int rank, CommType comm_type, const std::vector& inputs) { return std::make_shared(places, rank, comm_type, inputs); } ProcessGroupHCCL::HCCLTask::HCCLTask(const std::vector& places, int rank, CommType CommType, const std::vector& inputs) : Task(rank, inputs, CommType), places_(places) { control_events_.resize(places.size()); hcclComms_.resize(places.size()); } ProcessGroupHCCL::HCCLTask::~HCCLTask() {} void ProcessGroupHCCL::HCCLTask::SetOutputs( std::vector& outputs) { // NOLINT outputs_ = std::make_shared>(outputs); } void ProcessGroupHCCL::HCCLTask::SynchronizeStreams() { for (size_t i = 0; i < places_.size(); ++i) { auto* default_ctx = static_cast( platform::DeviceContextPool::Instance().Get(places_[i])); platform::NPUStreamWaitEvent(default_ctx->stream(), control_events_[i].GetRawNPUEvent()); } } bool ProcessGroupHCCL::HCCLTask::IsCompleted() { for (size_t i = 0; i < places_.size(); ++i) { if (!control_events_[i].Query()) { return false; } } return true; } // TODO(sandyhouse): Add timeout for wait, now timeout unused bool ProcessGroupHCCL::HCCLTask::Wait(std::chrono::milliseconds timeout) { SynchronizeStreams(); // NOTE(sandyhouse): It will block host for sync while (!IsCompleted()) { std::this_thread::sleep_for(std::chrono::milliseconds(kWaitBlockTImeout)); } return true; } // Same as Wait void ProcessGroupHCCL::HCCLTask::Synchronize() { Wait(kWaitTimeout); } ProcessGroupHCCL::ProcessGroupHCCL(const std::shared_ptr& store, int rank, int size) : ProcessGroup(rank, size), store_(store) {} void ProcessGroupHCCL::BroadcastUniqueHCCLID( std::vector& hccl_ids) { // NOLINT if (rank_ == 0) { for (size_t i = 0; i < hccl_ids.size(); i++) { auto key = "ProcessGroupHCCL/hccl_ids/" + std::to_string(i); auto hccl_id = std::vector( reinterpret_cast(&hccl_ids[i]), reinterpret_cast(&hccl_ids[i]) + sizeof(HcclRootInfo)); store_->set(key, hccl_id); } } else { for (size_t i = 0; i < hccl_ids.size(); i++) { auto key = "ProcessGroupHCCL/hccl_ids/" + std::to_string(i); auto ret = store_->get(key); std::memcpy(&hccl_ids[i], ret.data(), ret.size()); } } } // create HCCLManager cache for places_key void ProcessGroupHCCL::CreateHCCLManagerCache( const std::string& places_key, const std::vector& places) { PADDLE_ENFORCE_EQ(places_key.empty(), false, platform::errors::PreconditionNotMet( "Not able to create/get the HCCL Communicator since " "the NPU place are not known")); std::vector> hccl_comms; hccl_comms.resize(places.size()); // using vector just for broadcast std::vector hccl_ids; hccl_ids.resize(1); auto& hccl_id = hccl_ids.front(); if (rank_ == 0) { PADDLE_ENFORCE_NPU_SUCCESS(platform::dynload::HcclGetRootInfo(&hccl_id)); } BroadcastUniqueHCCLID(hccl_ids); VLOG(3) << "init hccl rank: " << rank_ << ", nranks: " << size_ << ", place: " << places_key << ", hccl uniqueid: " << SerializeHCCLUniqueId(hccl_id); std::vector> dev_ctx; dev_ctx.resize(places.size()); std::unique_ptr comms(new HcclComm[places.size()]); for (size_t i = 0; i < places.size(); ++i) { platform::NPUDeviceGuard guard(places[i].GetDeviceId()); hccl_comms[i] = HCCLCommManager::Create(GetSize(), GetRank(), &hccl_id, comms.get() + i); dev_ctx[i].reset(new NPUDeviceContext(places[i])); } std::vector events; events.resize(places.size()); // These caches will be useful to process sync/wait/communicate places_to_events_.emplace(places_key, std::move(events)); places_to_hcclcomm_.emplace(places_key, std::move(hccl_comms)); places_to_ctx_.emplace(places_key, std::move(dev_ctx)); } template std::shared_ptr ProcessGroupHCCL::Collective( std::vector& inputs, std::vector& outputs, Fn fn, CommType op_type) { const auto places = GetPlaceList(inputs); const auto key = GetKeyFromPlaces(places); { std::lock_guard lock(mutex_); if (places_to_hcclcomm_.find(key) == places_to_hcclcomm_.end()) { CreateHCCLManagerCache(key, places); } } auto& hccl_comms = places_to_hcclcomm_[key]; SyncDefaultStream(places, places_to_events_[key], places_to_ctx_[key]); auto task = CreateTask(places, rank_, op_type, inputs); task->SetOutputs(outputs); // if (FLAGS_use_stream_safe_npu_allocator) { // for (size_t i = 0; i < inputs.size(); ++i) { // platform::NPUDeviceGuard guard(places[i].GetDeviceId()); // auto dense_tensor = // std::dynamic_pointer_cast(inputs[i].impl()); // memory::RecordStream(dense_tensor->Holder(), // places_to_ctx_[key][i]->stream()); // } // } for (size_t i = 0; i < inputs.size(); ++i) { platform::NPUDeviceGuard guard(places[i].GetDeviceId()); const auto& hccl_stream = places_to_ctx_[key][i]->stream(); fn(inputs[i], outputs[i], hccl_comms[i]->GetHcclComm(), hccl_stream); } for (size_t i = 0; i < inputs.size(); ++i) { platform::NPUDeviceGuard guard(places[i].GetDeviceId()); task->control_events_[i].Record(*places_to_ctx_[key][i]); } return task; } template std::shared_ptr ProcessGroupHCCL::PointToPoint( std::vector& tensors, Fn fn, int dst_rank, CommType op_type) { const auto places = GetPlaceList(tensors); const auto key = GetKeyFromPlaces(places); { std::lock_guard lock(mutex_); if (places_to_hcclcomm_.find(key) == places_to_hcclcomm_.end()) { CreateHCCLManagerCache(key, places); } } auto& hccl_comms = places_to_hcclcomm_[key]; SyncDefaultStream(places, places_to_events_[key], places_to_ctx_[key]); auto task = CreateTask(places, rank_, op_type, tensors); // construct uninitialize guard for device // if (FLAGS_use_stream_safe_npu_allocator) { // for (size_t i = 0; i < tensors.size(); ++i) { // platform::NPUDeviceGuard guard(places[i].GetDeviceId()); // auto dense_tensor = // std::dynamic_pointer_cast(tensors[i].impl()); // memory::RecordStream(dense_tensor->Holder(), // places_to_ctx_[key][i]->stream()); // } // } for (size_t i = 0; i < tensors.size(); ++i) { platform::NPUDeviceGuard guard(places[i].GetDeviceId()); const auto& hccl_stream = places_to_ctx_[key][i]->stream(); fn(tensors[i], hccl_comms[i]->GetHcclComm(), hccl_stream, dst_rank); } for (size_t i = 0; i < tensors.size(); ++i) { platform::NPUDeviceGuard guard(places[i].GetDeviceId()); task->control_events_[i].Record(*places_to_ctx_[key][i]); } return task; } std::shared_ptr ProcessGroupHCCL::AllReduce( std::vector& tensors, const AllreduceOptions& opts) { // PADDLE_ENFORCE_EQ( // CheckTensorsInNPUPlace(tensors), true, // platform::errors::InvalidArgument("All inputs should be in // NPUPlace.")); return Collective( tensors, tensors, [&](const Tensor& input, Tensor& output, HcclComm comm, const aclrtStream& stream) { auto input_tensor = std::dynamic_pointer_cast(input.impl()); auto output_tensor = std::dynamic_pointer_cast(output.impl()); return platform::dynload::HcclAllReduce( input_tensor->data(), output_tensor->data(), input_tensor->numel(), platform::ToHCCLDataType(input.type()), ToHCCLRedType(opts.reduce_op), comm, stream); }, CommType::ALLREDUCE); } std::shared_ptr ProcessGroupHCCL::Broadcast( std::vector& tensors, const BroadcastOptions& opts) { // PADDLE_ENFORCE_EQ( // CheckTensorsInNPUPlace(tensors), true, // platform::errors::InvalidArgument("All inputs should be in // CudaPlace.")); return Collective( tensors, tensors, [&](Tensor& input, Tensor& output, HcclComm comm, const aclrtStream& stream) { const auto root = opts.source_rank * tensors.size() + opts.source_root; auto input_tensor = std::dynamic_pointer_cast(input.impl()); auto output_tensor = std::dynamic_pointer_cast(output.impl()); return platform::dynload::HcclBroadcast( input_tensor->data(), input_tensor->numel(), platform::ToHCCLDataType(input.type()), root, comm, stream); }, CommType::BROADCAST); } } // namespace distributed } // namespace paddle