diff --git a/AUTHORS.md b/AUTHORS.md index d5baee2161aa1d5360056e03ca67d5b2fe9ff7d2..4db4a4a8e7441b07ce2db4adff043bb99a09014b 100644 --- a/AUTHORS.md +++ b/AUTHORS.md @@ -1,28 +1,48 @@ | Github account | name | |---|---| -| reyoung | Yang Yu | +| backyes | Yan-Fei Wang | +| beckett1124 | Bin Qi | +| Canpio | Jia-Yi Feng | +| chengxiaohua1105 | Xiao-Hua Cheng | +| cxwangyi, yiwangbaidu, wangkuiyi | Yi Wang | +| cxysteven | Xing-Yi Cheng | +| dzhwinter | Zhi-Hong Dong | +| emailweixu | Wei Xu | | gangliao | Gang Liao | -| luotao01 | Tao Luo | -| jacquesqiao | Long-Fei Qiao | -| qingqing01 | Qing-Qing Dang | +| gongweibao | Wei-Bao Gong | +| Guo Sheng | Sheng Guo | +| Haichao-Zhang | Hai-Chao Zhang | | hedaoyuan | Dao-Yuan He | -| wangyang59 | Yang Wang | +| helinwang | He-Lin Wang | +| jacquesqiao | Long-Fei Qiao | +| kuke | Yi-Bing Liu | +| lcy-seso | Ying Cao | +| lipeng-unisound | Peng Li | +| liuyuan | Yuan Liu | +| livc | Zhao Li | +| llxxxll | Yong-Feng Liu | +| luotao01 | Tao Luo | +| lzhao4ever | Liang Zhao | +| NHZlX | Zhao-Long Xing | +| pakchoi | Chuan-Jiang Song | +| pengli09 | Peng Li | +| pkuyym | Ya-Ming Yang | | QiJune | Jun Qi | +| qingqing01 | Qing-Qing Dang | +| reyoung | Yang Yu | +| Superjom | Chun-Wei Yan | | tianbingsz | Tian-Bing Xu | -| cxwangyi, yiwangbaidu, wangkuiyi | Yi Wang | | typhoonzero | Yi Wu | -| backyes | Yan-Fei Wang | -| pengli09 | Peng Li | -| livc | Zhao Li | +| wanghaoshuang | Hao-Shuang Wang | +| wangyang59 | Yang Wang | +| wangzhen-nlp | Zhen Wang | +| wen-bo-yang | Wen-Bo Yang | +| wwhu | Wei-Wei Hu | +| xinghai-sun | Xing-Hai Sun | | Xreki | Yi-Qun Liu | +| xujun05 | Jun Xu | +| xushaoyong | Shao-Yong Xu | | Yancey1989 | Xu Yan | -| emailweixu | Wei Xu | -| wen-bo-yang | Wen-Bo Yang | -| helinwang | He-Lin Wang | -| lcy-seso | Ying Cao | -| Zrachel | Rui-Qing Zhang | -| Haichao-Zhang | Hai-Chao Zhang | -| gongweibao | Wei-Bao Gong | -| lzhao4ever | Liang Zhao | +| zhaopu7 | Pu Zhao | | zhouxiao-coder | Xiao Zhou | -| lipeng-unisound | Peng Li | +| Zrachel | Rui-Qing Zhang | diff --git a/paddle/framework/net_design.md b/paddle/framework/net_design.md new file mode 100644 index 0000000000000000000000000000000000000000..a5f0483081e8a03b2d001a551fcc02bbd392016d --- /dev/null +++ b/paddle/framework/net_design.md @@ -0,0 +1,250 @@ +# Network Design + +`Network` is the container and controller of a set of operators, +user can build a real network from a `NetDesc` which is a protobuf message +and use `Network.Run()` to run all the operators in the network. + +A network object knows all Operators belonging to this network. Variables, +which are inputs and outputs of these operators, +are created and managed by a hierarchy of Scope objects. + +# API + +## Net +To make the `Network` extendable, a base class is defined like this + +```c++ +// operator's index stored in a network. +typedef int OpIndex; + +// The minimum a network should be implemented. +class Net { + public: + // run all the operators and return success(true) or not, with all the + // variables are located in `scope`. `context` describes the detail execution + // environment for ops. `begin` and `end` specify the scope of `ops_` to run, + // If no positive indexes are provided, all operators in `ops_` will run. + virtual Error Run(Scope *scope, OpContext *context, OpIndex begin = -1, + OpIndex end = -1) const = 0; + + // Add an Operator according to `def`. + virtual OpIndex AddOp(const proto::OpDef &def) = 0; + + // Add optimizer operators acctording to `attrs`. + virtual Error AddOptimizerOps(const OptAttrs &attrs) = 0; + + // Add backward operators. + virtual Error AddBackwardOps() = 0; + + // Infer the shapes of variables required by operators in the network. The + // `scope` will be mutated according to the inferred shapes. + + static std::unique_ptr Create(const NetDesc &def = NetDesc()); +}; +``` + +All network implementations should build networks from a protobuf message which +describes the structure of a real network; `Run` method should be implemented by +all implementations to offer a universal method to forward or backward compute a network. + +`Net::Create` is a method of factory pattern and can be implemented like + +```c++ +std::unique Net::Create(const NetDesc& def) { + switch (def.model_type()) { + case NN: + return new Network(def); + case Recursive: + return new RecursiveNet(def); + case Recurrent: + return new RecurrentNet(def); + } + return nullptr; +} +``` + +Network is designed as the container of operators. to make it more extendable, +we decouple it from the related variable resources. + +`Run(Scope* scope)` takes the scope as a argument so that it can run in different scopes. + +Finally, `Net` can be used as followed + +```c++ +Scope default_scope; +OpContext default_context; +auto net = Net::CreateNet(def); + +if (net) { + net.Run(&default_scope, &default_context); +} +``` + +## `PlainNet` as a simple implementation of `BaseNet` + +A very basic implementation is as follows. All it does is simply to run every operators in sequence. + +```c++ +class PlainNet : public Net { + public: + // Create a network describe by `def`. NetDesc is the definition of a network. + PlainNet(const NetDesc &def); + + // Infer all the operators' input and output varialbes' shapes, will be called before every mini-batch + training. + virtual Error InferShape(Scope *scope) override; + + // Run all the operators with the `scope`, if no scope is provided, default + // scope will be used instead. If no OpContext is provicded, default context will be used. + virtual Error Run(Scope *scope = nullptr, OpContext *context=nullptr, OpIndex begin = -1, + OpIndex end = -1) const override; + + virtual OpIndex AddOp(const proto::OpDef &def) override; + + virtual Error AddOptimizerOps(const OptAttrs &attrs) override; + + virtual Error AddBackwardOps() override; + + protected: + // Create operators accordding to `def`, will be called by the constructor. + Error BuildNet(const NetDesc &def); + + // Add a operator which is identified as `type` and has attributes described + // in `attrs`, the `inputs` are the keys of readonly input variables, + // `outputs` are keys of mutable output variables. An `OpIndex` will be + // returned to indicate the offset of the new operator in `ops_`. + OpIndex AddOp(const std::string &type, const std::vector &inputs, + const std::vector &outputs, + const OprAttr &attrs = OprAttr()); + + private: + // the operators owned by `Network`. + std::vector ops_; +}; +``` + +`PlainNet` will create operators so that a private member `ops_` is defined, +the operators are created by `CreateNet`, and each operator is created by `AddOp`. + + +## PlainNet Usage +`PlainNet` can be used to define and run a network as follows + +```c++ +// create an empty scope located on CPU device. +Scope scope(CPUPlace()); + +// create and init variables described in `net_desc`. +scope.CreateVariables(net_desc); +scope.InitVariables(net_desc); + +// create a network according to `net_desc` +auto net = Net::CreateNet(net_desc); +// Add more operators if needed. +net->AddOp(add...); +net->AddOp(fc...); + +net->AddBackwardOps(); +net->AddOptimizerOps(); + +// run the network providing the `scope`. +net.Run(&scope); +``` + +## `NetBuilder` as a C++ syntax wrapper +This is a detailed description of the user-related C++ network API, and may not needed in the prototype development stage. + +The `NetBuilder` will give users a much simpler syntax as follows to create a network, and demonstrates how to use the `BaseNet`'s raw interfaces. + +```c++ +Variable* fc_out = builder.AddOp("fc", input=image, size=100, activation="Sigmoid"); +Variable* prediction = builder.AddOp("fc", input=fc_out, size=10, activation="Sigmoid"); +Variable* loss = builder.AddOp("cross_entropy", input=prediction, label=label); +Variable* avg_loss = builder.AddOp("mean", loss); + +builder.BackwardFrom(avg_loss) +builder.AddOptimization(1e-4, "adam"); +builder.Run(); +``` + +`NetBuilder` will call `Net` 's virtual functions to change the real network structure, here is a sample definition + +```c++ +class NetBuilder final { + public: + NetBuilder(Net* net) : net_(net) {} + + Variable* AddOp(const string& type, const vector& inputs, + size_t size, Activation act) { + // much code here. + // ... + net_->AddOp(def); + need_rebuild_net_ = true; + net_->InferShape(); + // ... + } + + Error BackwardFrom(const Variable& cost); + + Error Run(Scope* scope, OpContext* context, bool need_backward = true) { + // backward. + if (need_backward) { + if (need_rebuild_net_) { + AddBackwardOps(); + AddOptimizerOps(); + } + net_->Run(scope, context); + return; + } + // just forward. + net_->Run(scope, context, 0, last_forward_op_); + } + + protected: + Error AddBackwardOps(); + Error AddOptimizerOps(); + + private: + Net* net_; + OpIndex last_forward_op_{-1}; + bool need_rebuild_net_{true}; +} +``` + +## Compatibility with RNN + +Benefitting from the decoupling of `PlainNet.Run` and `Scope`, `PlainNet` is compatible with future RNN design, +for example we can implement a simple recurrent neural network as follows + +```c++ +// copy some `vars` form `source` to `target` +void Copy(const Scope &source, Scope &target, + const std::vector &vars); + +Scope default_scope; +// some initial mutations on `default_scope` here. + +auto rnn_step_net = PlainNet(rnn_step_net_def); + +// Create rnn's states, the last scope is used to store rnn outputs. +Scope *rnn_states = new Scope[num_states + 1]; + +for (int i = 0; i < num_states + 1; i++) { + // Initialize all rnn state scopes, copy parameters and so on. + rnn_states[i].CreateVars(rnn_step_net_def); + Copy(default_scope, rnn_states[i], rnn_related_vars); + // Prepare rnn's inlinks, just copy inlink variables to each state. + Copy(default_scope, rnn_states[i], inlink_vars); +} + +// Run the rnn. +for (int i = 0; i < num_states; i++) { + rnn_step_net.Run(rnn_states[i]); + // Copy current state's state variables to next state, the related variables + // are named like "previous_state_xxx". + Copy(rnn_states[i], rnn_states[i + 1], pre_state_vars) +} + +// Copy rnn's final outputs to `default_scope`. +Copy(rnn_states[num_states], default_scope, outlink_vars); +```