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mindspore2022/mindspore/ccsrc/runtime/device/gpu/gpu_bucket.cc

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  1. /**

  2.  * Copyright 2021 Huawei Technologies Co., Ltd

  3.  *

  4.  * Licensed under the Apache License, Version 2.0 (the "License");

  5.  * you may not use this file except in compliance with the License.

  6.  * You may obtain a copy of the License at

  7.  *

  8.  * http://www.apache.org/licenses/LICENSE-2.0

  9.  *

  10.  * Unless required by applicable law or agreed to in writing, software

  11.  * distributed under the License is distributed on an "AS IS" BASIS,

  12.  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  13.  * See the License for the specific language governing permissions and

  14.  * limitations under the License.

  15.  */

  16. 

  17. #include "runtime/device/gpu/gpu_bucket.h"

  18. 

  19. #include <cuda_runtime_api.h>

  20. #include <nccl.h>

  21. #include <vector>

  22. #include <memory>

  23. #include "abstract/utils.h"

  24. #include "runtime/device/gpu/gpu_event.h"

  25. #include "runtime/device/gpu/gpu_memory_allocator.h"

  26. #include "runtime/device/gpu/gpu_device_manager.h"

  27. #include "runtime/device/kernel_runtime_manager.h"

  28. #include "runtime/device/gpu/distribution/collective_init.h"

  29. #include "runtime/device/gpu/gpu_launch_mul.h"

  30. #include "backend/kernel_compiler/gpu/nccl/nccl_gpu_kernel.h"

  31. #include "runtime/device/gpu/gpu_common.h"

  32. 

  33. namespace {

  34. const size_t kCommunicationMemAlignSize = 16;

  35. size_t AlignMemorySize(size_t size) {

  36.   if (size == 0) {

  37.     return kCommunicationMemAlignSize;

  38.   }

  39.   return ((size + kCommunicationMemAlignSize - 1) / kCommunicationMemAlignSize) * kCommunicationMemAlignSize;

  40. }

  41. }  // namespace

  42. namespace mindspore::device::gpu {

  43. GPUBucket::GPUBucket(uint32_t id, uint32_t bucket_size) : Bucket(id, bucket_size), collective_handle_(nullptr) {

  44.   group_ = kNcclWorldGroup;

  45. }

  46. 

  47. void GPUBucket::AllocateAllReduceAddr() {

  48.   MS_LOG(INFO) << "start";

  49.   if (grad_tensor_list_.size() != bucket_size_) {

  50.     MS_LOG(EXCEPTION) << "grad tensor list size:" << grad_tensor_list_.size()

  51.                       << " is not equal to bucket size:" << bucket_size_;

  52.   }

  53. 

  54.   auto total_size = 0;

  55.   std::vector<size_t> size_list;

  56.   for (auto &tensor : grad_tensor_list_) {

  57.     MS_EXCEPTION_IF_NULL(tensor);

  58.     tensor_type_list_.emplace_back(tensor->data_type());

  59.     DeviceAddressPtr device_address = std::dynamic_pointer_cast<DeviceAddress>(tensor->device_address());

  60.     MS_EXCEPTION_IF_NULL(device_address);

  61.     auto origin_size = device_address->GetSize();

  62.     auto align_size = AlignMemorySize(origin_size);

  63.     size_list.emplace_back(origin_size);

  64.     align_size_list_.emplace_back(align_size);

  65.     total_size += align_size;

  66.     memcpy_input_addrs_.emplace_back(

  67.       std::make_shared<kernel::Address>(static_cast<uint8_t *>(device_address->GetMutablePtr()), origin_size));

  68.   }

  69.   total_size_ = total_size;

  70. 

  71.   ar_input_addr_ = static_cast<uint8_t *>(GPUMemoryAllocator::GetInstance().AllocTensorMem(total_size));

  72.   ar_output_addr_ = static_cast<uint8_t *>(GPUMemoryAllocator::GetInstance().AllocTensorMem(total_size));

  73. 

  74.   uint8_t *memcpy_output = ar_input_addr_;

  75.   for (size_t i = 0; i < bucket_size_; ++i) {

  76.     memcpy_output_addrs_.emplace_back(std::make_shared<kernel::Address>(memcpy_output, size_list[i]));

  77.     memcpy_output += align_size_list_[i];

  78.   }

  79.   MS_LOG(INFO) << "end";

  80. }

  81. 

  82. void GPUBucket::FreeDeviceMem(void *dev_ptr) { GPUMemoryAllocator::GetInstance().FreeTensorMem(dev_ptr); }

  83. 

  84. void GPUBucket::FreeAllDeviceMem() {

  85.   MS_LOG(INFO) << "start";

  86.   if (ar_input_addr_ != nullptr) {

  87.     FreeDeviceMem(ar_input_addr_);

  88.     ar_input_addr_ = nullptr;

  89.   }

  90.   if (ar_output_addr_ != nullptr) {

  91.     FreeDeviceMem(ar_output_addr_);

  92.     ar_output_addr_ = nullptr;

  93.   }

  94.   // clear launch mul device memory

  95.   if (launch_kernel != nullptr) {

  96.     launch_kernel->FreeLaunchDeviceMem();

  97.   }

  98.   MS_LOG(INFO) << "end";

  99. }

  100. 

  101. void GPUBucket::CopyTensorToContiguousMemory() {

  102.   MS_LOG(INFO) << "start";

  103.   MS_EXCEPTION_IF_NULL(compute_stream_);

  104.   // Clean allreduce input

  105.   CHECK_CUDA_RET_WITH_EXCEPT_NOTRACE(

  106.     cudaMemsetAsync(ar_input_addr_, 0, total_size_, static_cast<cudaStream_t>(compute_stream_)),

  107.     "Call cudaMemsetAsync failed");

  108. 

  109.   for (size_t i = 0; i < bucket_size_; ++i) {

  110.     MS_EXCEPTION_IF_NULL(memcpy_output_addrs_[i]);

  111.     MS_EXCEPTION_IF_NULL(memcpy_input_addrs_[i]);

  112.     if (!GPUDeviceManager::GetInstance().CopyDeviceMemToDeviceAsync(memcpy_output_addrs_[i]->addr,

  113.                                                                     memcpy_input_addrs_[i]->addr,

  114.                                                                     memcpy_output_addrs_[i]->size, compute_stream_)) {

  115.       MS_LOG(EXCEPTION) << "Copy memory failed";

  116.     }

  117.   }

  118.   MS_LOG(INFO) << "end";

  119. }

  120. 

  121. void GPUBucket::LaunchAllReduce() {

  122.   MS_LOG(INFO) << "start";

  123.   collective_handle_ = device::gpu::CollectiveInitializer::instance().collective_handle();

  124.   auto all_reduce_funcptr =

  125.     reinterpret_cast<kernel::AllReduce>(dlsym(const_cast<void *>(collective_handle_), "AllReduce"));

  126.   MS_EXCEPTION_IF_NULL(all_reduce_funcptr);

  127.   MS_EXCEPTION_IF_NULL(stream_);

  128. 

  129.   if (tensor_type_list_.empty()) {

  130.     MS_LOG(EXCEPTION) << "No tesnor type found";

  131.   }

  132.   auto type = tensor_type_list_[0];

  133.   if (std::any_of(tensor_type_list_.begin(), tensor_type_list_.end(),

  134.                   [&type](TypeId tensor_type) { return type != tensor_type; })) {

  135.     MS_LOG(EXCEPTION) << "AllReduce input have different dtype";

  136.   }

  137. 

  138.   auto type_size = abstract::TypeIdSize(type);

  139.   if (type_size == 0) {

  140.     MS_LOG(EXCEPTION) << "Invalid type:" << type;

  141.   }

  142. 

  143.   // typeid to nccl_data_type

  144.   auto nccl_data_type_iter = kernel::kNcclDtypeMap.find(TypeIdLabel(type));

  145.   if (nccl_data_type_iter == kernel::kNcclDtypeMap.end()) {

  146.     MS_LOG(EXCEPTION) << "Invalid type:" << type;

  147.   }

  148. 

  149.   auto nccl_result =

  150.     (*all_reduce_funcptr)(ar_input_addr_, ar_output_addr_, total_size_ / type_size, nccl_data_type_iter->second,

  151.                           ncclRedOp_t::ncclSum, static_cast<cudaStream_t>(stream_), group_);

  152.   if (nccl_result != ncclSuccess) {

  153.     MS_LOG(EXCEPTION) << "AllReduce failed, ret:" << nccl_result;

  154.   }

  155. 

  156.   MS_LOG(INFO) << "end";

  157. }

  158. 

  159. std::shared_ptr<LaunchKernel> GPUBucket::CreateLaunchKernel() {

  160.   if (tensor_type_list_.empty()) {

  161.     MS_LOG(ERROR) << "tensor_type_list_ is empty";

  162.   }

  163.   auto launch_mul = std::make_shared<GPULaunchMul>(stream_, tensor_type_list_[0], total_size_, ar_output_addr_);

  164.   MS_EXCEPTION_IF_NULL(launch_mul);

  165.   return launch_mul;

  166. }

  167. 

  168. void GPUBucket::Init() {

  169.   pre_event_ = std::make_shared<GpuEvent>();

  170.   post_event_ = std::make_shared<GpuEvent>();

  171. 

  172.   auto kernel_runtime = KernelRuntimeManager::Instance().GetCurrentKernelRuntime();

  173.   MS_EXCEPTION_IF_NULL(kernel_runtime);

  174.   stream_ = kernel_runtime->communication_stream();

  175.   compute_stream_ = kernel_runtime->compute_stream();

  176. 

  177.   MS_EXCEPTION_IF_NULL(pre_event_);

  178.   MS_EXCEPTION_IF_NULL(post_event_);

  179.   pre_event_->set_record_stream(compute_stream_);

  180.   pre_event_->set_wait_stream(stream_);

  181.   post_event_->set_record_stream(stream_);

  182.   post_event_->set_wait_stream(compute_stream_);

  183. }

  184. }  // namespace mindspore::device::gpu