/* Copyright (c) 2021 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. */ #pragma once #include #include #include #include "paddle/fluid/platform/device/ipu/ipu_utils.h" #include "paddle/fluid/platform/enforce.h" namespace paddle { namespace platform { namespace ipu { struct RuntimeOptions { // enable the eval mode in training by switching optimizers. bool enable_eval = false; }; class IpuStrategy { public: IpuStrategy(); // TODO(alleng) create PaddleOptions // training flag, true for training bool is_training = true; // Average sharding, debugging used bool need_avg_shard = false; // Flag for fp16, true for pure fp16 bool enable_fp16 = false; // The mode of Adam/Lamb optimizer // false: The standard Adam/Lamb optimizer // true: The Adam_No_Bias/Lamb_No_Bias optimizer from PopART bool use_no_bias_optimizer = false; // Enable distributed computing for POD128 or POD256 bool enable_distribution = false; // Enable Scaled optimizer state only for Adam and Lamb bool scaled_optimizer_state = false; // Number ipus total needed, local_replica * ipu_per_replica int num_ipus = 1; // Batches per step int batches_per_step = 1; // Micro batch-size int micro_batch_size = 1; // Random seed std::uint64_t random_seed = std::numeric_limits::max(); // Available memory proportion, 0.0f for disable float available_memory_proportion = 0.0f; // Loss scaling, currently we can't get loss scaling from // optimizer_extract_pass, so we have to set it here float loss_scaling = 1.0f; // DefaultMaxWeightNorm for adam optimizer float max_weight_norm = 65504.0f; // File path for dumping compiled model in onnx format std::string onnx_dump_path; // Data type to use for tensor that stores first-order momentum optimizer // state. FLOAT or FLOAT16 std::string accl1_type = "FLOAT"; // Data type to use for tensor that stores second-order momentum optimizer // state. FLOAT or FLOAT16 std::string accl2_type = "FLOAT"; // Data type to use for tensor that stores third-order momentum optimizer // state. FLOAT or FLOAT16 std::string accl3_type = "FLOAT"; // WeightDecayMode for setting the optimizer // if set, it will override other settings // value must be one of "decay" or "l2_regularization" or not set std::string weight_decay_mode = ""; // Runtime Options RuntimeOptions runtime_options; // popart session option popart::SessionOptions popart_options; // popart pattern manager popart::Patterns popart_patterns; // Custom ops std::vector custom_ops; public: void AddBoolOption(const std::string &option, bool value); void AddUint64Option(const std::string &option, std::uint64_t value); void AddDoubleOption(const std::string &option, double value); void AddStringOption(const std::string &option, const std::string &value); void InsertStringOption(const std::string &option, const std::string &value); void InsertStringPairOption(const std::string &option, const std::string &key, const std::string &value); void SetTensorLocation(const std::string &tensor, const std::string &option, std::uint64_t value); void SetAccumulateOuterFragmentSettings(const std::uint64_t &schedule, const std::vector &values); void AddCustomOp(const std::string &paddle_op, const std::string &popart_op, const std::string &domain, int version); void SetCompilationProgressLogger( const std::function &logger); std::string GetOption(const std::string &); std::vector GetVectorOption(const std::string &); std::map GetMapOption(const std::string &); std::string GetOptionType(const std::string &); std::vector GetAllOptionNames(); void EnablePattern(const std::string &t); void DisablePattern(const std::string &t); const bool IsPatternEnabled(const std::string &t); private: template void set( const std::string &key, ValueType value, std::map> &options, // NOLINT const std::string &type_str) { auto it = options.find(key); PADDLE_ENFORCE_NE(it, options.end(), platform::errors::InvalidArgument( "Cannot find option: %s, type: %s " "when setting IpuStrategy options", key, type_str)); it->second(value); } template ValueType get( const std::string &key, std::map> &options) { // NOLINT auto it = options.find(key); PADDLE_ENFORCE_NE( it, options.end(), platform::errors::InvalidArgument( "Cannot find option name: %s when trying to get IpuStrategy option", key)); return it->second(); } std::map> bool_options; std::map> uint64_options; std::map> double_options; std::map> string_options; std::map)>> container_options; std::map> options_getter; std::map()>> vector_options_getter; std::map()>> map_options_getter; std::map options_type; }; } // namespace ipu } // namespace platform } // namespace paddle