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# Design for GAN

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GAN (General Adversarial Net [https://arxiv.org/abs/1406.2661]) is an important model for unsupervised learning and widely used in many areas. 
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It applies several important concepts in machine learning system design, including building and running subgraphs, dependency tracing, different optimizers in one executor and so forth.
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In our GAN design, we wrap it as a user-friendly easily customized python API to design different models. We take the conditional DC-GAN (Unsupervised Representation Learning with Deep Convolutional Generative Adversarial Networks [https://arxiv.org/abs/1511.06434]) as an example due to its good performance on image generation.
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| important building blocks | People in Charge  | Required |
|---------------------------|-------------------|----------|
| convolution 2d (done)     | Chengduo          | Y        |
| cudnn conv 2d (missing)   | Chengduo          | N        |
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| deconv 2d (missing)       | Zhuoyuan, Zhihong | Y        |
| cudnn deconv 2d (missing) | Zhuoyuan, Zhihong | N        |
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| batch norm (missing)      | Zhuoyuan, Jiayi   | Y        |
| cudnn batch norm (missing)| Zhuoyuan, Jiayi   | N        |
| max-pooling (done)        | ?                 | Y        |
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| cudnn-max-pool (missing)  | Chengduo          | Y        |
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| fc (done)                 | ?                 | Y        |
| softmax loss (done)       | ?                 | Y        |
| reshape op (done)         | ?                 | Y        |
| Dependency Engine (done)  | Jiayi             | Y *      |
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| Python API (done)         | Longfei, Jiayi    | Y *      |
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| Executor (done)           | Tony              | Y *      |
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| Multi optimizer (woking)  | Longfei           | Y *      |
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| Optimizer with any para   | ?                 | Y *      |
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| Concat op (done)          | ?                 | N (Cond) |
| Repmat op (done)          | ?                 | N (Cond) |
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<p align="center">
<img src="./dcgan.png" width = "90%" align="center"/><br/>
Borrow this photo from the original DC-GAN paper.
</p>

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## The Conditional-GAN might be a class. 
This design we adopt the popular open source design in https://github.com/carpedm20/DCGAN-tensorflow and https://github.com/rajathkmp/DCGAN. It contains following data structure:

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- DCGAN(object): which contains everything required to build a GAN model. It provides following member functions methods as API:
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- __init__(...): Initialize hyper-parameters (like conv dimension and so forth), and declare model parameters of discriminator and generator as well.
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- generator(z, y=None): Generate a fake image from input noise z. If the label y is provided, the conditional GAN model will be chosen.
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Returns a generated image.

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- discriminator(image):
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Given an image, decide if it is from a real source or a fake one. 
Returns a 0/1 binary label.

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- build_model(self):
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build the whole GAN model, define training loss for both generator and discrimator.
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## Discussion on Engine Functions required to build GAN
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- Trace the tensor and variable dependency in the engine executor. (Very critical, otherwise GAN can'be be trained correctly)
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- Different optimizers responsible for optimizing different loss.

To be more detailed, we introduce our design of DCGAN as following:

### Class member Function: Initializer
- Set up hyper-parameters, including condtional dimension, noise dimension, batch size and so forth.
- Declare and define all the model variables. All the discriminator parameters are included in the list self.theta_D and all the generator parameters are included in the list self.theta_G.
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```python
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class DCGAN(object):
  def __init__(self, y_dim=None):
  
    # hyper parameters  
    self.y_dim = y_dim # conditional gan or not
    self.batch_size = 100
    self.z_dim = z_dim # input noise dimension

    # define parameters of discriminators
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    self.D_W0 = pd.Variable(shape=[3,3, 1, 128], data=pd.gaussian_normal_randomizer())
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    self.D_b0 = pd.Variable(np.zeros(128)) # variable also support initialization using a  numpy data
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    self.D_W1 = pd.Variable(shape=[784, 128], data=pd.gaussian_normal_randomizer())
    self.D_b1 = pd.Variable(np.zeros(128)) # variable also support initialization using a  numpy data
    self.D_W2 = pd.Varialble(np.random.rand(128, 1))
    self.D_b2 = pd.Variable(np.zeros(128))
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    self.theta_D = [self.D_W0, self.D_b0, self.D_W1, self.D_b1, self.D_W2, self.D_b2]
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    # define parameters of generators
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    self.G_W0 = pd.Variable(shape=[784, 128], data=pd.gaussian_normal_randomizer())
    self.G_b0 = pd.Variable(np.zeros(128)) # variable also support initialization using a  numpy data
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    self.G_W1 = pd.Variable(shape=[784, 128], data=pd.gaussian_normal_randomizer())
    self.G_b1 = pd.Variable(np.zeros(128)) # variable also support initialization using a  numpy data
    self.G_W2 = pd.Varialble(np.random.rand(128, 1))
    self.G_b2 = pd.Variable(np.zeros(128))
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    self.theta_G = [self.G_W0, self.G_b0, self.G_W1, self.G_b1, self.G_W2, self.G_b2]
```
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### Class member Function: Generator
- Given a noisy input z, returns a fake image.
- Concatenation, batch-norm, FC operations required;
- Deconv layer required, which is missing now...
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```python
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class DCGAN(object):
  def generator(self, z, y = None):
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    # input z: the random noise
    # input y: input data label (optional)
    # output G_im: generated fake images
    
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    if not self.y_dim:
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      z = pd.layer.concat(1, [z, y])
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    G_h0 = pd.layer.fc(z, self.G_w0, self.G_b0)
    G_h0_bn = pd.layer.batch_norm(G_h0)
    G_h0_relu = pd.layer.relu(G_h0_bn)
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    G_h1 = pd.layer.deconv(G_h0_relu, self.G_w1, self.G_b1)
    G_h1_bn = pd.layer.batch_norm(G_h1)
    G_h1_relu = pd.layer.relu(G_h1_bn)
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    G_h2 = pd.layer.deconv(G_h1_relu, self.G_W2, self.G_b2))
    G_im = pd.layer.tanh(G_im)
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    return G_im
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```

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### Class member function: Discriminator
- Given a noisy input z, returns a fake image.
- Concatenation, Convolution, batch-norm, FC, Leaky-ReLU operations required;
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```python
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class DCGAN(object):
  def discriminator(self, image):
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    # input image: either generated images or real ones
    # output D_h2: binary logit of the label
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    D_h0 = pd.layer.conv2d(image, w=self.D_w0, b=self.D_b0)
    D_h0_bn = pd.layer.batchnorm(h0)
    D_h0_relu = pd.layer.lrelu(h0_bn)
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    D_h1 = pd.layer.conv2d(D_h0_relu, w=self.D_w1, b=self.D_b1)
    D_h1_bn = pd.layer.batchnorm(D_h1)
    D_h1_relu = pd.layer.lrelu(D_h1_bn)
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    D_h2 = pd.layer.fc(D_h1_relu, w=self.D_w2, b=self.D_b2)
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    return D_h2
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```
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### Class member function: Build the model
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- Define data readers as placeholders to hold the data;
- Build generator and discriminators;
- Define two training losses for discriminator and generator, respectively. 
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If we have execution dependency engine to back-trace all tensors, the module building our GAN model will be like this:
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```python
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class DCGAN(object):
  def build_model(self):
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    if self.y_dim:
        self.y = pd.data(pd.float32, [self.batch_size, self.y_dim])
    self.images = pd.data(pd.float32, [self.batch_size, self.im_size, self.im_size])
    self.faked_images = pd.data(pd.float32, [self.batch_size, self.im_size, self.im_size])
    self.z = pd.data(tf.float32, [None, self.z_size])
    
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    # step 1: generate images by generator, classify real/fake images with discriminator
    if self.y_dim: # if conditional GAN, includes label
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        self.G = self.generator(self.z, self.y)
        self.D_t = self.discriminator(self.images)
        # generated fake images
        self.sampled = self.sampler(self.z, self.y)
        self.D_f = self.discriminator(self.G)
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    else: # original version of GAN
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        self.G = self.generator(self.z)
        self.D_t = self.discriminator(self.images)
        # generate fake images
        self.sampled = self.sampler(self.z)
        self.D_f = self.discriminator(self.images)
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    # step 2: define the two losses
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    self.d_loss_real = pd.reduce_mean(pd.cross_entropy(self.D_t, np.ones(self.batch_size))
    self.d_loss_fake = pd.reduce_mean(pd.cross_entropy(self.D_f, np.zeros(self.batch_size))
    self.d_loss = self.d_loss_real + self.d_loss_fake
    
    self.g_loss = pd.reduce_mean(pd.cross_entropy(self.D_f, np.ones(self.batch_szie))
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```
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If we do not have dependency engine but blocks, the module building our GAN model will be like this:
```python
class DCGAN(object):
  def build_model(self, default_block):
    # input data in the default block
    if self.y_dim:
        self.y = pd.data(pd.float32, [self.batch_size, self.y_dim])
    self.images = pd.data(pd.float32, [self.batch_size, self.im_size, self.im_size])
    # self.faked_images = pd.data(pd.float32, [self.batch_size, self.im_size, self.im_size])
    self.z = pd.data(tf.float32, [None, self.z_size])

    # step 1: generate images by generator, classify real/fake images with discriminator
    with pd.default_block().g_block():
      if self.y_dim: # if conditional GAN, includes label
        self.G = self.generator(self.z, self.y)
        self.D_g = self.discriminator(self.G, self.y)
      else: # original version of GAN
        self.G = self.generator(self.z)
        self.D_g = self.discriminator(self.G, self.y)
      self.g_loss = pd.reduce_mean(pd.cross_entropy(self.D_g, np.ones(self.batch_szie))
    
    with pd.default_block().d_block():
      if self.y_dim: # if conditional GAN, includes label
        self.D_t = self.discriminator(self.images, self.y)
        self.D_f = self.discriminator(self.G, self.y)
      else: # original version of GAN
        self.D_t = self.discriminator(self.images)
        self.D_f = self.discriminator(self.G)

      # step 2: define the two losses
      self.d_loss_real = pd.reduce_mean(pd.cross_entropy(self.D_t, np.ones(self.batch_size))
      self.d_loss_fake = pd.reduce_mean(pd.cross_entropy(self.D_f, np.zeros(self.batch_size))
      self.d_loss = self.d_loss_real + self.d_loss_fake
```
Some small confusion and problems with this design:
- D\_g and D\_f are actually the same thing, but has to be written twice;
- Requires ability to create a block anytime, rather than in if-else or rnn only;

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## Main function for the demo:
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Generally, the user of GAN just need to the following things:
- Define an object as DCGAN class;
- Build the DCGAN model;
- Specify two optimizers for two different losses with respect to different parameters.
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```python
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# pd for short, should be more concise.
from paddle.v2 as pd
import numpy as np
import logging

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if __name__ == "__main__":
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    # dcgan class in the default graph/block
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    # if we use dependency engine as tensorflow
    # the codes, will be slightly different like:
    # dcgan = DCGAN()
    # dcgan.build_model()
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    with pd.block() as def_block:
      dcgan = DCGAN()
      dcgan.build_model(def_block)
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    # load mnist data
    data_X, data_y = self.load_mnist()
    
    # Two subgraphs required!!!
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    with pd.block().d_block():
      d_optim = pd.train.Adam(lr = .001, beta= .1)
      d_step = d_optim.minimize(dcgan.d_loss, dcgan.theta_D)
    with pd.block.g_block():
      g_optim = pd.train.Adam(lr = .001, beta= .1)
      g_step = pd.minimize(dcgan.g_loss, dcgan.theta_G)
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    # executor
    sess = pd.executor()
    
    # training
    for epoch in xrange(10000):
      for batch_id in range(N / batch_size):
        idx = ...
        # sample a batch
        batch_im, batch_label = data_X[idx:idx+batch_size], data_y[idx:idx+batch_size]
        # sample z
        batch_z = np.random.uniform(-1., 1., [batch_size, z_dim])

        if batch_id % 2 == 0:
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          sess.run(d_step, 
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                   feed_dict = {dcgan.images: batch_im,
                                dcgan.y: batch_label,
                                dcgan.z: batch_z})
        else:
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          sess.run(g_step,
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                   feed_dict = {dcgan.z: batch_z})
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```