!10303 ps cache support save checkpoint

From: @zyli2020 Reviewed-by: Signed-off-by:
5 years ago · 5d94eaff21
--- a/mindspore/ccsrc/pipeline/jit/pipeline.cc
+++ b/mindspore/ccsrc/pipeline/jit/pipeline.cc
@@ -1085,10 +1085,10 @@ void ClearResAtexit() {
  session::ClearPythonParasMap();
 #if (ENABLE_CPU && (ENABLE_D || ENABLE_GPU))
  if (ps::Util::IsParamServerMode() && ps::Util::IsRoleOfWorker()) {
    ps::worker.Finalize();
    if (ps::PsDataPrefetch::GetInstance().cache_enable()) {
      ps::ps_cache_instance.Finalize();
    }
    ps::worker.Finalize();
  }
 #endif
  ad::g_k_prims.clear();
--- a/mindspore/ccsrc/ps/parameter_server.h
+++ b/mindspore/ccsrc/ps/parameter_server.h
@@ -552,7 +552,6 @@ template <typename T>
 void ParameterServer<T>::Finalize() {
  running_ = false;
  apply_grads_cv_.notify_one();
  SyncEmbeddingTables();
 }

 template <typename T>
@@ -774,7 +773,7 @@ void ParameterServer<T>::GetEmbeddingTableParamPtr() {
  for (auto cnode : cnodes) {
    MS_EXCEPTION_IF_NULL(cnode);
    std::string cnode_name = AnfAlgo::GetCNodeName(cnode);
    if (cnode_name == kEmbeddingLookupOpName) {
    if (cnode_name == kEmbeddingLookupOpName || cnode_name == kGatherV2OpName) {
      auto embedding_table = AnfAlgo::GetInputNode(cnode, 0);
      MS_EXCEPTION_IF_NULL(embedding_table);
      MS_LOG(INFO) << "Embedding table name is " << embedding_table->fullname_with_scope() << ", key is " << count;
@@ -832,6 +831,7 @@ void ParameterServer<T>::Run(const FuncGraphPtr &func_graph) {
  Init(func_graph);
  PSContext::instance()->SetPSRankId(rank_id_);
  thread_->join();
  SyncEmbeddingTables();
  MS_LOG(INFO) << "PServer finished updating models, starts finalizing...";
  ::ps::Finalize(0, true);
  MS_LOG(INFO) << "PServer finalized successfully.";
--- a/mindspore/ccsrc/ps/ps_cache/embedding_hash_map.cc
+++ b/mindspore/ccsrc/ps/ps_cache/embedding_hash_map.cc
@@ -30,21 +30,21 @@ int EmbeddingHashMap::ParseData(const int id, int *swap_out_index, int *swap_out
    if (loop++ == hash_capacity_) {
      return INVALID_INDEX_VALUE;
    }
    if (hash_map_unit_[hash_index].IsEmpty()) {
    if (hash_map_elements_[hash_index].IsEmpty()) {
      hash_count_++;
      (void)hash_id_to_index_.emplace(id, hash_index);
      hash_map_unit_[hash_index].set_id(id);
      hash_map_unit_[hash_index].set_step(data_step);
      hash_map_elements_[hash_index].set_id(id);
      hash_map_elements_[hash_index].set_step(data_step);
      return hash_index;
    } else if (need_swap && hash_map_unit_[hash_index].IsExpired(graph_running_step)) {
    } else if (need_swap && hash_map_elements_[hash_index].IsExpired(graph_running_step)) {
      // Need swap out from the hash table.
      swap_out_index[*swap_out_size] = hash_index;
      swap_out_ids[*swap_out_size] = hash_map_unit_[hash_index].id_;
      swap_out_ids[*swap_out_size] = hash_map_elements_[hash_index].id_;
      (*swap_out_size)++;
      (void)hash_id_to_index_.erase(hash_map_unit_[hash_index].id_);
      (void)hash_id_to_index_.erase(hash_map_elements_[hash_index].id_);
      (void)hash_id_to_index_.emplace(id, hash_index);
      hash_map_unit_[hash_index].set_id(id);
      hash_map_unit_[hash_index].set_step(data_step);
      hash_map_elements_[hash_index].set_id(id);
      hash_map_elements_[hash_index].set_step(data_step);
      return hash_index;
    }
    hash_index = (hash_index + 1) % hash_capacity_;
@@ -58,9 +58,10 @@ void EmbeddingHashMap::DumpHashMap() {
    MS_LOG(INFO) << "  id: " << iter->first << " index: " << iter->second;
  }
  MS_LOG(INFO) << "Dump hash_map_unit: ";
  for (size_t i = 0; i < hash_map_unit_.size(); i++) {
    if (!hash_map_unit_[i].IsEmpty()) {
      MS_LOG(INFO) << "  index: " << i << " id: " << hash_map_unit_[i].id_ << " step: " << hash_map_unit_[i].step_;
  for (size_t i = 0; i < hash_map_elements_.size(); i++) {
    if (!hash_map_elements_[i].IsEmpty()) {
      MS_LOG(INFO) << "  index: " << i << " id: " << hash_map_elements_[i].id_
                   << " step: " << hash_map_elements_[i].step_;
    }
  }
  MS_LOG(INFO) << "Dump hash map info end.";
--- a/mindspore/ccsrc/ps/ps_cache/embedding_hash_map.h
+++ b/mindspore/ccsrc/ps/ps_cache/embedding_hash_map.h
@@ -30,8 +30,8 @@ static const size_t INVALID_STEP_VALUE = 0;
 static const int INVALID_INDEX_VALUE = -1;

 struct HashMapElement {
  int id_;
  size_t step_;
  int id_{INVALID_INDEX_VALUE};
  size_t step_{INVALID_STEP_VALUE};
  bool IsEmpty() const { return step_ == INVALID_STEP_VALUE; }
  bool IsExpired(size_t graph_running_step) const { return graph_running_step > step_; }
  void set_id(int id) { id_ = id; }
@@ -42,7 +42,7 @@ struct HashMapElement {
 class EmbeddingHashMap {
 public:
  EmbeddingHashMap(size_t hash_count, size_t hash_capacity) : hash_count_(hash_count), hash_capacity_(hash_capacity) {
    hash_map_unit_.resize(hash_capacity);
    hash_map_elements_.resize(hash_capacity);
  }
  virtual ~EmbeddingHashMap() = default;
  int ParseData(const int id, int *swap_out_index, int *swap_out_ids, const size_t data_step,
@@ -51,8 +51,10 @@ class EmbeddingHashMap {
  bool IsIdExist(const std::unordered_map<int, int>::const_iterator iter) const {
    return iter != hash_id_to_index_.end();
  }
  size_t hash_step(const int hash_index) const { return hash_map_unit_[hash_index].step_; }
  void set_hash_step(const int hash_index, const size_t step) { hash_map_unit_[hash_index].set_step(step); }
  size_t hash_step(const int hash_index) const { return hash_map_elements_[hash_index].step_; }
  void set_hash_step(const int hash_index, const size_t step) { hash_map_elements_[hash_index].set_step(step); }
  const std::unordered_map<int, int> &hash_id_to_index() const { return hash_id_to_index_; }
  size_t hash_capacity() const { return hash_capacity_; }
  void DumpHashMap();

 private:
@@ -60,7 +62,7 @@ class EmbeddingHashMap {
  bool NeedSwap() const { return hash_count_ > FloatToSize(hash_capacity_ * 0.9); }
  size_t hash_count_;
  size_t hash_capacity_;
  std::vector<HashMapElement> hash_map_unit_;
  std::vector<HashMapElement> hash_map_elements_;
  std::unordered_map<int, int> hash_id_to_index_;
 };
 }  // namespace ps
--- a/mindspore/ccsrc/ps/ps_cache/ps_cache_manager.cc
+++ b/mindspore/ccsrc/ps/ps_cache/ps_cache_manager.cc
@@ -226,9 +226,9 @@ void PsCacheManager::AllocMemForHashTable() {
    device_address.addr = addr;

    auto &host_address = item.second.host_address;
    auto host_address_ptr = new int[host_cache_vocab_size_ * embedding_size];
    auto host_address_ptr = new float[host_cache_vocab_size_ * embedding_size];
    MS_EXCEPTION_IF_NULL(host_address_ptr);
    host_address = std::shared_ptr<int[]>(host_address_ptr, std::default_delete<int[]>());
    host_address = std::shared_ptr<float[]>(host_address_ptr, std::default_delete<float[]>());
    MS_EXCEPTION_IF_NULL(host_address);

    max_embedding_size = (embedding_size > max_embedding_size) ? embedding_size : max_embedding_size;
@@ -330,6 +330,14 @@ void PsCacheManager::ProcessDataTask(uint32_t device_id, void *context) {
 }

 void PsCacheManager::Finalize() {
  if (running_) {
    if (!SyncHostEmbeddingTable()) {
      MS_LOG(ERROR) << "SyncHostEmbeddingTable failed.";
    }
    if (!SyncDeviceEmbeddingTable()) {
      MS_LOG(ERROR) << "SyncDeviceEmbeddingTable failed.";
    }
  }
  running_ = false;
  PsDataPrefetch::GetInstance().NotifyFinalize();
  insert_init_info_.notify_all();
@@ -838,6 +846,99 @@ bool PsCacheManager::UpdataEmbeddingTable(const ::ps::SArray<float> &swap_out_da
  return true;
 }

 bool PsCacheManager::SyncHostEmbeddingTable() {
  MS_ERROR_IF_NULL(embedding_host_cache_);
  const auto &hash_id_to_index = embedding_host_cache_->host_hash_map_->hash_id_to_index();
  size_t swap_indices_lens = hash_id_to_index.size();
  if (swap_indices_lens == 0) {
    return true;
  }
  std::unique_ptr<int[]> host_to_server_ids_ptr = std::make_unique<int[]>(swap_indices_lens);
  MS_ERROR_IF_NULL(host_to_server_ids_ptr);
  std::unique_ptr<int[]> host_to_server_indices_ptr = std::make_unique<int[]>(swap_indices_lens);
  MS_ERROR_IF_NULL(host_to_server_indices_ptr);
  size_t idx = 0;
  for (const auto &item : hash_id_to_index) {
    host_to_server_ids_ptr[idx] = item.first;
    host_to_server_indices_ptr[idx++] = item.second;
  }
  for (const auto &item : hash_tables_) {
    const auto &hash_info = item.second;
    if (hash_info.param_init_info_.param_type_ != kWeight) {
      continue;
    }
    auto key = worker.GetParamKey(item.first);
    ::ps::SArray<int> lookup_ids(swap_indices_lens, 0);
    ::ps::SArray<float> swap_out_data;
    auto embedding_size = hash_info.embedding_size;
    swap_out_data.resize(swap_indices_lens * embedding_size);
    auto host_hash_table_addr = hash_info.host_address.get();
    MS_ERROR_IF_NULL(host_hash_table_addr);
    RETURN_IF_FALSE(LookUpHostHashTable(embedding_size, swap_indices_lens, host_hash_table_addr,
                                        host_to_server_indices_ptr.get(), swap_out_data.data()));

    auto copy_len = swap_indices_lens * sizeof(int);
    auto ret = memcpy_s(lookup_ids.data(), copy_len, host_to_server_ids_ptr.get(), copy_len);
    if (ret != EOK) {
      MS_LOG(ERROR) << "Lookup id memcpy failed.";
      return false;
    }
    worker.UpdateEmbeddingTable({key}, lookup_ids, swap_out_data);
  }
  return true;
 }

 bool PsCacheManager::SyncDeviceEmbeddingTable() {
  MS_ERROR_IF_NULL(embedding_device_cache_);
  const auto &device_hash_map = embedding_device_cache_->device_hash_map_;
  const auto &hash_id_to_index = device_hash_map->hash_id_to_index();
  size_t swap_indices_lens = hash_id_to_index.size();
  if (swap_indices_lens == 0) {
    return true;
  }
  std::unique_ptr<int[]> device_to_server_ids_ptr = std::make_unique<int[]>(swap_indices_lens);
  MS_ERROR_IF_NULL(device_to_server_ids_ptr);
  std::unique_ptr<int[]> device_to_server_indices_ptr = std::make_unique<int[]>(swap_indices_lens);
  MS_ERROR_IF_NULL(device_to_server_indices_ptr);
  size_t idx = 0;
  for (const auto &item : hash_id_to_index) {
    device_to_server_ids_ptr[idx] = item.first;
    device_to_server_indices_ptr[idx++] = item.second;
  }
  for (const auto &item : hash_tables_) {
    const auto &hash_info = item.second;
    if (hash_info.param_init_info_.param_type_ != kWeight) {
      continue;
    }
    auto key = worker.GetParamKey(item.first);
    ::ps::SArray<int> lookup_ids(swap_indices_lens, 0);
    ::ps::SArray<float> swap_out_data;
    auto embedding_size = hash_info.embedding_size;
    swap_out_data.resize(swap_indices_lens * embedding_size);
    std::unique_ptr<float[]> device_hash_table_addr_tmp =
      std::make_unique<float[]>(device_hash_map->hash_capacity() * embedding_size);
    MS_ERROR_IF_NULL(device_hash_table_addr_tmp);

    auto hash_table_addr = reinterpret_cast<float *>(hash_info.device_address.addr);
    MS_ERROR_IF_NULL(hash_table_addr);
    auto hash_table_size = hash_info.device_address.size;
    RETURN_IF_FALSE(embedding_device_cache_->cache_->CopyDeviceMemToHost(device_hash_table_addr_tmp.get(),
                                                                         hash_table_addr, hash_table_size));
    RETURN_IF_FALSE(embedding_device_cache_->cache_->SynchronizeStream());
    RETURN_IF_FALSE(LookUpHostHashTable(embedding_size, swap_indices_lens, device_hash_table_addr_tmp.get(),
                                        device_to_server_indices_ptr.get(), swap_out_data.data()));

    auto copy_len = swap_indices_lens * sizeof(int);
    auto ret = memcpy_s(lookup_ids.data(), copy_len, device_to_server_ids_ptr.get(), copy_len);
    if (ret != EOK) {
      MS_LOG(ERROR) << "Lookup id memcpy failed.";
      return false;
    }
    worker.UpdateEmbeddingTable({key}, lookup_ids, swap_out_data);
  }
  return true;
 }

 void PsCacheManager::DumpHashTables(bool dump_device_tables) const {
  for (const auto &item : hash_tables_) {
    const auto &param_name = item.first;
--- a/mindspore/ccsrc/ps/ps_cache/ps_cache_manager.h
+++ b/mindspore/ccsrc/ps/ps_cache/ps_cache_manager.h
@@ -48,7 +48,7 @@ struct HashTableInfo {
  size_t embedding_size{0};
  size_t vocab_size{0};
  Address device_address{nullptr, 0};
  std::shared_ptr<int[]> host_address{nullptr};
  std::shared_ptr<float[]> host_address{nullptr};
  ParamInitInfo param_init_info_;
 };

@@ -166,6 +166,8 @@ class PsCacheManager {
  bool CheckFinishInsertInitInfo() const;
  void AddEmbeddingTable() const;
  void DumpStatisticsInfo(size_t each_print_step = 1000);
  bool SyncHostEmbeddingTable();
  bool SyncDeviceEmbeddingTable();

  bool initialized_ps_cache_{false};
  std::string channel_name_;
--- a/mindspore/ccsrc/utils/utils.h
+++ b/mindspore/ccsrc/utils/utils.h
@@ -205,6 +205,7 @@ constexpr auto kPushOpName = "Push";
 constexpr auto kPullOpName = "Pull";
 constexpr auto kEmbeddingLookupOpName = "EmbeddingLookup";
 constexpr auto kEmbeddingLookupProxyOpName = "EmbeddingLookupProxy";
 constexpr auto kGatherV2OpName = "GatherV2";
 constexpr auto kPaddingOpName = "Padding";
 constexpr auto kAvgPoolOpName = "AvgPool";
 constexpr auto kAvgPoolGradGpuOpName = "AvgPoolGradGpu";
--- a/mindspore/nn/layer/embedding.py
+++ b/mindspore/nn/layer/embedding.py
@@ -292,7 +292,8 @@ class EmbeddingLookup(Cell):
                                     "in 'full_batch' and 'table_row_slice' parallel strategy.")
                self.vocab_cache_size = self.vocab_cache_size * device_num
            self.cache_enable = True
            self.vocab_size = self.vocab_cache_size
            if _is_role_worker():
                self.vocab_size = self.vocab_cache_size

    def _set_voacb_cache_enable(self, vocab_cache_size, embedding_size, vocab_size):
        """PS embeddingLookup cache enable set."""
--- a/model_zoo/official/recommend/wide_and_deep/train_and_eval_parameter_server_distribute.py
+++ b/model_zoo/official/recommend/wide_and_deep/train_and_eval_parameter_server_distribute.py
@@ -24,6 +24,7 @@ from mindspore.context import ParallelMode
 from mindspore.communication.management import get_rank, get_group_size, init
 from mindspore.nn.wrap.cell_wrapper import VirtualDatasetCellTriple
 from mindspore.common import set_seed
 from mindspore.parallel._ps_context import _is_role_worker

 from src.wide_and_deep import PredictWithSigmoid, TrainStepWrap, NetWithLossClass, WideDeepModel
 from src.callbacks import LossCallBack, EvalCallBack
@@ -117,11 +118,14 @@ def train_and_eval(config):
    eval_callback = EvalCallBack(model, ds_eval, auc_metric, config)

    callback = LossCallBack(config=config)
    if cache_enable:
        ckptconfig = CheckpointConfig(save_checkpoint_steps=ds_train.get_dataset_size()*epochs,
                                      keep_checkpoint_max=5, integrated_save=False)
    if _is_role_worker():
        if cache_enable:
            ckptconfig = CheckpointConfig(save_checkpoint_steps=ds_train.get_dataset_size()*epochs,
                                          keep_checkpoint_max=1, integrated_save=False)
        else:
            ckptconfig = CheckpointConfig(save_checkpoint_steps=ds_train.get_dataset_size(), keep_checkpoint_max=5)
    else:
        ckptconfig = CheckpointConfig(save_checkpoint_steps=ds_train.get_dataset_size(), keep_checkpoint_max=5)
        ckptconfig = CheckpointConfig(save_checkpoint_steps=1, keep_checkpoint_max=1)
    ckpoint_cb = ModelCheckpoint(prefix='widedeep_train',
                                 directory=config.ckpt_path + '/ckpt_' + str(get_rank()) + '/',
                                 config=ckptconfig)
--- a/model_zoo/official/recommend/wide_and_deep/train_and_eval_parameter_server_standalone.py
+++ b/model_zoo/official/recommend/wide_and_deep/train_and_eval_parameter_server_standalone.py
@@ -20,6 +20,7 @@ import sys
 from mindspore import Model, context
 from mindspore.train.callback import ModelCheckpoint, CheckpointConfig, TimeMonitor
 from mindspore.common import set_seed
 from mindspore.parallel._ps_context import _is_role_worker

 from src.wide_and_deep import PredictWithSigmoid, TrainStepWrap, NetWithLossClass, WideDeepModel
 from src.callbacks import LossCallBack, EvalCallBack
@@ -99,7 +100,14 @@ def train_and_eval(config):

    eval_callback = EvalCallBack(model, ds_eval, auc_metric, config)
    callback = LossCallBack(config=config)
    ckptconfig = CheckpointConfig(save_checkpoint_steps=ds_train.get_dataset_size(), keep_checkpoint_max=5)
    if _is_role_worker():
        if cache_enable:
            ckptconfig = CheckpointConfig(save_checkpoint_steps=ds_train.get_dataset_size() * epochs,
                                          keep_checkpoint_max=1)
        else:
            ckptconfig = CheckpointConfig(save_checkpoint_steps=ds_train.get_dataset_size(), keep_checkpoint_max=5)
    else:
        ckptconfig = CheckpointConfig(save_checkpoint_steps=1, keep_checkpoint_max=1)
    ckpoint_cb = ModelCheckpoint(prefix='widedeep_train', directory=config.ckpt_path, config=ckptconfig)
    callback_list = [TimeMonitor(ds_train.get_dataset_size()), eval_callback, callback, ckpoint_cb]