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I am somewhat new to tensorflow, so if the problem is something obvious then please forgive me. Basically, I am making a generative adversarial network and my generator produces very repetitive tile-like patterns. At the current moment my generator model looks like this

def generator(input):
    net = dense_block(input, 1024*4*4, "dense-1")
    net = tf.reshape(net, [-1,4,4,1024])
    net = tf.nn.relu(tf.layers.batch_normalization(net, name="bn1"))
    print ("Dense 1", net.get_shape())
    net = deconv_block(net, 512, [5,5], [1,2,2,1], "SAME", "deconv1")
    net = tf.layers.batch_normalization(net, name="bn2")
    net = tf.nn.relu(net)
    print ("deconv 1", net.get_shape())
    net = deconv_block(net, 256, [5,5], [1,2,2,1], "SAME", "deconv2")
    net = tf.layers.batch_normalization(net, name="bn3")
    net = tf.nn.relu(net)
    print ("deconv 2", net.get_shape())
    net = deconv_block(net, 128, [5,5], [1,2,2,1], "SAME", "deconv3")
    net = tf.layers.batch_normalization(net, name="bn4")
    net = tf.nn.relu(net)
    print ("deconv 3", net.get_shape())
    net = deconv_block(net, channels, [5,5], [1,2,2,1], "SAME", "deconv4")
    net = tf.layers.batch_normalization(net, name="bn5")
    net = tf.nn.tanh(net)
    return net

where a dense block consists of this:

def dense_block(net, out_dim, name):
    w = init_weights([net.get_shape().as_list()[-1], out_dim], name=name+"-weights")
    b = init_biases(out_dim, name=name+"-biases")
    dense = tf.matmul(net, w) + b
    return dense

and the deconv block looks like this:

def deconv_block(net, filter_num, kernel_size, stride_size, padding, name):
    shape = [kernel_size[1], kernel_size[0], filter_num, net.get_shape().as_list()[-1]]
    in_shape = net.get_shape().as_list()

    w = init_weights(shape, name)
    b = init_biases(filter_num, name)
    out_shape=[in_shape[0], in_shape[2]*2, in_shape[1]*2, filter_num]

    deconv = tf.nn.conv2d_transpose(value=net, filter=w, strides=stride_size, output_shape=out_shape, padding=padding, name=name)
    deconv = tf.reshape(tf.nn.bias_add(deconv, b), deconv.get_shape())
    return deconv

The weight and bias creations are as follows:

def init_weights(shape, name):
    return tf.get_variable(initializer=tf.truncated_normal(shape, stddev=0.05), name=name+"-weights")

def init_biases(length, name):
    return tf.get_variable(initializer=tf.constant(0.05, shape=[length]), name=name+"-biases")

The loss function and optimizer are:

g_loss = tf.reduce_mean(tf.nn.sigmoid_cross_entropy_with_logits(logits=D_net2, labels=tf.ones_like(D_net2)))
g_opt = tf.train.AdamOptimizer().minimize(loss=g_loss, var_list=g_params)

and I am training all of the parameters in graph "G" as defined by:

g_params = [v for v in vars if v.name.startswith('G/')]

This does seem to return the correct number of variables. The network is fed a tensor of size (batch_size, 100), which should start to resemble some scaled up mnist data (scaled to 64x64). What I notice from the errors is that the generator only improves in terms of loss for a couple of epochs and then flatlines. Even if the discriminator is only updates every 50 epochs, the generator does not improve after about 150 epochs

An example output is like this: Epoch 500

I would also like to note that the discriminator does work correctly. I started out with the discriminator being a classification CNN for mnist, and then I basically merged all of the outputs into a single node in order to use it with the GAN.

The other outputs also follow similar tiling patterns, and I am not sure why. If anyone could help it would be great! If you need any more information please let me know.

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  • Does it do something more interesting if you take out the relus (i.e. make it mostly linear)? Commented Jun 1, 2017 at 16:37
  • @AllenLavoie The only difference is that it seems to converge later, but it still produces a tiled pattern
    – Adam
    Commented Jun 1, 2017 at 17:16
  • why would you use strides of [1,2,2,1] and and what happens if you change that to [1,1,1,1] ? Don't generators also take as input some random noise so that they don't always produce exactly the same thing? Commented Jun 1, 2017 at 20:16
  • @wontonimo If I understand it correctly, I have to use strides of [1,2,2,1] because I need to do a fractional slide in order to upsample the image. I am going from a 4x4 "image" to 8x8 all the way up to 64x64. If I don't use the [1, 2, 2, 1] stride the image is not upsampled. Please see github.com/vdumoulin/conv_arithmetic. To address your second point, the generator takes 100 integer values that are uniformly distributed between 0 and 1 as the input. It should convert these into something that resembles the mnist dataset.
    – Adam
    Commented Jun 1, 2017 at 20:40
  • If this is the mnist data set right with numbers from zero to nine then the input would be a 1hot encoding of 0 to 9. What input are you giving it? Commented Jun 1, 2017 at 20:43

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