提交 64f4e547 编写于 作者: L liaogang

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Credits
========
PaddlPaddle is an easy-to-use, efficient, flexible and scalable deep learning platform,
which is originally developed by Baidu scientists and engineers for the purpose of applying deep learning to many products at Baidu.
PaddlePaddle is now open source but far from complete, which is intended to be built upon, improved, scaled, and extended.
We hope to build an active open source community both by providing feedback and by actively contributing to the source code.
We owe many thanks to `all contributors and developers <https://github.com/PaddlePaddle/Paddle/blob/develop/authors>`_ of PaddlePaddle!
../../demo/sentiment_analysis/bi_lstm.jpg
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../../demo/text_generation/encoder-decoder-attention-model.png
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# User Interface # API
## Data Provider ## Data Provider
* [Introduction](data_provider/index.rst) * [Introduction](data_provider/index.rst)
* [PyDataProvider2](data_provider/pydataprovider2.rst) * [PyDataProvider2](data_provider/pydataprovider2.rst)
## API Reference ## Trainer Configuration
* [Model Config Interface](api/trainer_config_helpers/index.md) * [Model Config Interface](trainer_config_helpers/index.rst)
## Command Line Argument
* [Use Case](cmd_argument/use_case.md)
* [Argument Outline](cmd_argument/argument_outline.md)
* [Detailed Descriptions](cmd_argument/detail_introduction.md)
## Predict ## Predict
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Cluster Train
====================
.. toctree::
:glob:
opensource/cluster_train.md
internal/index.md
# Layer Documents
* [Layer Source Code Document](../source/gserver/layers/index.rst)
* [Layer Python API Document](../ui/api/trainer_config_helpers/index.rst)
Algorithm Tutorial Algorithm Configuration
================== =======================
.. toctree:: .. toctree::
:maxdepth: 1 :maxdepth: 1
......
...@@ -9,7 +9,7 @@ In this article, we explain how to run distributed Paddle training jobs on clust ...@@ -9,7 +9,7 @@ In this article, we explain how to run distributed Paddle training jobs on clust
1. Aforementioned scripts use a Python library [fabric](http://www.fabfile.org/) to run SSH commands. We can use `pip` to install fabric: 1. Aforementioned scripts use a Python library [fabric](http://www.fabfile.org/) to run SSH commands. We can use `pip` to install fabric:
```bash ```bash
pip install fabric pip install fabric
``` ```
1. We need to install PaddlePaddle on all nodes in the cluster. To enable GPUs, we need to install CUDA in `/usr/local/cuda`; otherwise Paddle would report errors at runtime. 1. We need to install PaddlePaddle on all nodes in the cluster. To enable GPUs, we need to install CUDA in `/usr/local/cuda`; otherwise Paddle would report errors at runtime.
......
# Command Line Argument
* [Use Case](use_case.md)
* [Argument Outline](argument_outline.md)
* [Detailed Descriptions](detail_introduction.md)
...@@ -2,8 +2,8 @@ Development Guide ...@@ -2,8 +2,8 @@ Development Guide
================= =================
.. toctree:: .. toctree::
:maxdepth: 1 :maxdepth: 2
layer.md layer.md
new_layer/new_layer.rst new_layer/new_layer.rst
../source/index.md source/index.rst
# Layer Documents
* [Layer Python API](../../api/trainer_config_helpers/index.rst)
* [Layer Source Code](source/gserver/layers.rst)
* [Writing New Layers](new_layer/new_layer.rst)
How to
=======
.. toctree::
:maxdepth: 1
cmd_argument/index.md
cluster/cluster_train.md
algorithm/index.rst
dev/index.rst
contribute_to_paddle.md
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...@@ -4,7 +4,9 @@ PaddlePaddle Documentation ...@@ -4,7 +4,9 @@ PaddlePaddle Documentation
.. toctree:: .. toctree::
:maxdepth: 1 :maxdepth: 1
introduction/index.md introduction/index.rst
user_guide.rst tutorials/index.md
dev/index.rst howto/index.rst
algorithm/index.rst api/index.rst
about/index.rst
# Introduction Basic Usage
=============
PaddlePaddle is a deep learning platform open-sourced by Baidu. With PaddlePaddle, you can easily train a classic neural network within a couple lines of configuration, or you can build sophisticated models that provide state-of-the-art performance on difficult learning tasks like sentiment analysis, machine translation, image caption and so on. PaddlePaddle is a deep learning platform open-sourced by Baidu. With PaddlePaddle, you can easily train a classic neural network within a couple lines of configuration, or you can build sophisticated models that provide state-of-the-art performance on difficult learning tasks like sentiment analysis, machine translation, image caption and so on.
## 1. A Classic Problem 1. A Classic Problem
---------------------
Now, to give you a hint of what using PaddlePaddle looks like, let's start with a fundamental learning problem - <a href="https://en.wikipedia.org/wiki/Simple_linear_regression">**simple linear regression**</a> : you have observed a set of two-dimensional data points of `X` and `Y`, where `X` is an explanatory variable and `Y` is corresponding dependent variable, and you want to recover the underlying correlation between `X` and `Y`. Linear regression can be used in many practical scenarios. For example, `X` can be a variable about house size, and `Y` a variable about house price. You can build a model that captures relationship between them by observing real estate markets. Now, to give you a hint of what using PaddlePaddle looks like, let's start with a fundamental learning problem - `simple linear regression <https://en.wikipedia.org/wiki/Simple_linear_regression>`_: you have observed a set of two-dimensional data points of ``X`` and ``Y``, where ``X`` is an explanatory variable and ``Y`` is corresponding dependent variable, and you want to recover the underlying correlation between ``X`` and ``Y``. Linear regression can be used in many practical scenarios. For example, ``X`` can be a variable about house size, and ``Y`` a variable about house price. You can build a model that captures relationship between them by observing real estate markets.
## 2. Prepare the Data 2. Prepare the Data
--------------------
Suppose the true relationship can be characterized as `Y = 2X + 0.3`, let's see how to recover this pattern only from observed data. Here is a piece of python code that feeds synthetic data to PaddlePaddle. The code is pretty self-explanatory, the only extra thing you need to add for PaddlePaddle is a definition of input data types. Suppose the true relationship can be characterized as ``Y = 2X + 0.3``, let's see how to recover this pattern only from observed data. Here is a piece of python code that feeds synthetic data to PaddlePaddle. The code is pretty self-explanatory, the only extra thing you need to add for PaddlePaddle is a definition of input data types.
```python .. code-block:: python
# dataprovider.py
from paddle.trainer.PyDataProvider2 import *
import random
# define data types of input: 2 real numbers # dataprovider.py
@provider(input_types=[dense_vector(1), dense_vector(1)],use_seq=False) from paddle.trainer.PyDataProvider2 import *
def process(settings, input_file): import random
# define data types of input: 2 real numbers
@provider(input_types=[dense_vector(1), dense_vector(1)],use_seq=False)
def process(settings, input_file):
for i in xrange(2000): for i in xrange(2000):
x = random.random() x = random.random()
yield [x], [2*x+0.3] yield [x], [2*x+0.3]
```
## 3. Train a NeuralNetwork in PaddlePaddle 3. Train a NeuralNetwork
-------------------------
To recover this relationship between ``X`` and ``Y``, we use a neural network with one layer of linear activation units and a square error cost layer. Don't worry if you are not familiar with these terminologies, it's just saying that we are starting from a random line ``Y' = wX + b`` , then we gradually adapt ``w`` and ``b`` to minimize the difference between ``Y'`` and ``Y``. Here is what it looks like in PaddlePaddle:
To recover this relationship between `X` and `Y`, we use a neural network with one layer of linear activation units and a square error cost layer. Don't worry if you are not familiar with these terminologies, it's just saying that we are starting from a random line `Y' = wX + b` , then we gradually adapt `w` and `b` to minimize the difference between `Y'` and `Y`. Here is what it looks like in PaddlePaddle: .. code-block:: python
```python # trainer_config.py
# trainer_config.py from paddle.trainer_config_helpers import *
from paddle.trainer_config_helpers import *
# 1. read data. Suppose you saved above python code as dataprovider.py # 1. read data. Suppose you saved above python code as dataprovider.py
data_file = 'empty.list' data_file = 'empty.list'
with open(data_file, 'w') as f: f.writelines(' ') with open(data_file, 'w') as f: f.writelines(' ')
define_py_data_sources2(train_list=data_file, test_list=None, define_py_data_sources2(train_list=data_file, test_list=None,
module='dataprovider', obj='process',args={}) module='dataprovider', obj='process',args={})
# 2. learning algorithm # 2. learning algorithm
settings(batch_size=12, learning_rate=1e-3, learning_method=MomentumOptimizer()) settings(batch_size=12, learning_rate=1e-3, learning_method=MomentumOptimizer())
# 3. Network configuration # 3. Network configuration
x = data_layer(name='x', size=1) x = data_layer(name='x', size=1)
y = data_layer(name='y', size=1) y = data_layer(name='y', size=1)
y_predict = fc_layer(input=x, param_attr=ParamAttr(name='w'), size=1, act=LinearActivation(), bias_attr=ParamAttr(name='b')) y_predict = fc_layer(input=x, param_attr=ParamAttr(name='w'), size=1, act=LinearActivation(), bias_attr=ParamAttr(name='b'))
cost = regression_cost(input=y_predict, label=y) cost = regression_cost(input=y_predict, label=y)
outputs(cost) outputs(cost)
```
Some of the most fundamental usages of PaddlePaddle are demonstrated: Some of the most fundamental usages of PaddlePaddle are demonstrated:
...@@ -55,46 +59,51 @@ Some of the most fundamental usages of PaddlePaddle are demonstrated: ...@@ -55,46 +59,51 @@ Some of the most fundamental usages of PaddlePaddle are demonstrated:
- The second part describes learning algorithm. It defines in what ways adjustments are made to model parameters. PaddlePaddle provides a rich set of optimizers, but a simple momentum based optimizer will suffice here, and it processes 12 data points each time. - The second part describes learning algorithm. It defines in what ways adjustments are made to model parameters. PaddlePaddle provides a rich set of optimizers, but a simple momentum based optimizer will suffice here, and it processes 12 data points each time.
- Finally, the network configuration. It usually is as simple as "stacking" layers. Three kinds of layers are used in this configuration: - Finally, the network configuration. It usually is as simple as "stacking" layers. Three kinds of layers are used in this configuration:
- **Data Layer**: a network always starts with one or more data layers. They provide input data to the rest of the network. In this problem, two data layers are used respectively for `X` and `Y`. - **Data Layer**: a network always starts with one or more data layers. They provide input data to the rest of the network. In this problem, two data layers are used respectively for ``X`` and ``Y``.
- **FC Layer**: FC layer is short for Fully Connected Layer, which connects all the input units to current layer and does the actual computation specified as activation function. Computation layers like this are the fundamental building blocks of a deeper model. - **FC Layer**: FC layer is short for Fully Connected Layer, which connects all the input units to current layer and does the actual computation specified as activation function. Computation layers like this are the fundamental building blocks of a deeper model.
- **Cost Layer**: in training phase, cost layers are usually the last layers of the network. They measure the performance of current model, and provide guidence to adjust parameters. - **Cost Layer**: in training phase, cost layers are usually the last layers of the network. They measure the performance of current model, and provide guidence to adjust parameters.
Now that everything is ready, you can train the network with a simple command line call: Now that everything is ready, you can train the network with a simple command line call:
```
.. code-block:: bash
paddle train --config=trainer_config.py --save_dir=./output --num_passes=30 paddle train --config=trainer_config.py --save_dir=./output --num_passes=30
```
This means that PaddlePaddle will train this network on the synthectic dataset for 30 passes, and save all the models under path `./output`. You will see from the messages printed out during training phase that the model cost is decreasing as time goes by, which indicates we are getting a closer guess.
This means that PaddlePaddle will train this network on the synthectic dataset for 30 passes, and save all the models under path ``./output``. You will see from the messages printed out during training phase that the model cost is decreasing as time goes by, which indicates we are getting a closer guess.
4. Evaluate the Model
-----------------------
## 4. Evaluate the Model Usually, a different dataset that left out during training phase should be used to evalute the models. However, we are lucky enough to know the real answer: ``w=2, b=0.3``, thus a better option is to check out model parameters directly.
Usually, a different dataset that left out during training phase should be used to evalute the models. However, we are lucky enough to know the real answer: `w=2, b=0.3`, thus a better option is to check out model parameters directly. In PaddlePaddle, training is just to get a collection of model parameters, which are ``w`` and ``b`` in this case. Each parameter is saved in an individual file in the popular ``numpy`` array format. Here is the code that reads parameters from last pass.
In PaddlePaddle, training is just to get a collection of model parameters, which are `w` and `b` in this case. Each parameter is saved in an individual file in the popular `numpy` array format. Here is the code that reads parameters from last pass. .. code-block:: python
```python import numpy as np
import numpy as np import os
import os
def load(file_name): def load(file_name):
with open(file_name, 'rb') as f: with open(file_name, 'rb') as f:
f.read(16) # skip header for float type. f.read(16) # skip header for float type.
return np.fromfile(f, dtype=np.float32) return np.fromfile(f, dtype=np.float32)
print 'w=%.6f, b=%.6f' % (load('output/pass-00029/w'), load('output/pass-00029/b')) print 'w=%.6f, b=%.6f' % (load('output/pass-00029/w'), load('output/pass-00029/b'))
# w=1.999743, b=0.300137 # w=1.999743, b=0.300137
```
<center> ![](./parameters.png) </center> .. image:: parameters.png
:align: center
Although starts from a random guess, you can see that value of `w` changes quickly towards 2 and `b` changes quickly towards 0.3. In the end, the predicted line is almost identical with real answer. Although starts from a random guess, you can see that value of ``w`` changes quickly towards 2 and ``b`` changes quickly towards 0.3. In the end, the predicted line is almost identical with real answer.
There, you have recovered the underlying pattern between `X` and `Y` only from observed data. There, you have recovered the underlying pattern between ``X`` and ``Y`` only from observed data.
## 5. Where to Go from Here 5. Where to Go from Here
-------------------------
- <a href="../build/index.html"> Build and Installation </a> - `Install and Build <../build_and_install/index.html>`_
- <a href="../demo/quick_start/index_en.html">Quick Start</a> - `Tutorials <../demo/quick_start/index_en.html>`_
- <a href="../demo/index.html">Example and Demo</a> - `Example and Demo <../demo/index.html>`_
...@@ -8,8 +8,6 @@ Install PaddlePaddle ...@@ -8,8 +8,6 @@ Install PaddlePaddle
:maxdepth: 1 :maxdepth: 1
:glob: :glob:
install_*
internal/install_from_jumbo.md
docker_install.rst docker_install.rst
ubuntu_install.rst ubuntu_install.rst
...@@ -25,4 +23,3 @@ Build from Source ...@@ -25,4 +23,3 @@ Build from Source
:glob: :glob:
build_from_source.md build_from_source.md
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contribute_to_paddle.md
Introduction
============
.. toctree::
:maxdepth: 2
build_and_install/index.rst
basic_usage/basic_usage.rst
../../doc_cn/introduction/parameters.png
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# Examples and demos # Tutorials
There are serveral examples and demos here. There are serveral examples and demos here.
## Image ## Image
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