A brief discussion on tensorflow1.0 pooling layer (pooling) and fully connected layer (dense)

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Release: 2018-04-27 10:59:17
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This article mainly introduces a brief discussion of the pooling layer (pooling) and fully connected layer (dense) of tensorflow 1.0. Now I will share it with you and give you a reference. Let’s take a look together

The pooling layer is defined in tensorflow/python/layers/pooling.py.

There are maximum pooling and mean pooling.

1. tf.layers.max_pooling2d

max_pooling2d(
  inputs,
  pool_size,
  strides,
  padding='valid',
  data_format='channels_last',
  name=None
)
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  1. inputs: Pooled data.

  2. pool_size: pooled core size (pool_height, pool_width), such as [3, 3]. If the length and width are equal, it can also be set directly to a number, such as pool_size=3.

  3. strides: The sliding stride of pooling. It can be set to two integers like [1,1]. It can also be set directly to a number, such as strides=2

  4. padding: edge padding, 'same' and 'valid' Choose one. The default is valid

  5. data_format: Input data format, the default is channels_last, which is (batch, height, width, channels), it can also be set to channels_first corresponding to (batch, channels, height, width ).

  6. name: The name of the layer.

Example:

pool1=tf.layers.max_pooling2d(inputs=x, pool_size=[2, 2], strides=2)
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is usually placed after the convolutional layer, such as:

conv=tf.layers.conv2d(
   inputs=x,
   filters=32,
   kernel_size=[5, 5],
   padding="same",
   activation=tf.nn.relu)
pool=tf.layers.max_pooling2d(inputs=conv, pool_size=[2, 2], strides=2)
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2.tf.layers.average_pooling2d

average_pooling2d(
  inputs,
  pool_size,
  strides,
  padding='valid',
  data_format='channels_last',
  name=None
)
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The parameters are the same as the previous maximum pooling.

The fully connected dense layer is defined in tensorflow/python/layers/core.py.

3, tf.layers.dense

dense(
  inputs,
  units,
  activation=None,
  use_bias=True,
  kernel_initializer=None,
  bias_initializer=tf.zeros_initializer(),
  kernel_regularizer=None,
  bias_regularizer=None,
  activity_regularizer=None,
  trainable=True,
  name=None,
  reuse=None
)
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  1. inputs: Input data, 2-dimensional tensor.

  2. units: The number of neural unit nodes in this layer.

  3. activation: activation function.

  4. use_bias: Boolean type, whether to use the bias term.

  5. kernel_initializer: The initializer of the convolution kernel.

  6. bias_initializer: The initializer of the bias term, the default initialization is 0.

  7. kernel_regularizer : Regularization of convolution kernel, optional.

  8. bias_regularizer: Regularization of bias term, optional.

  9. activity_regularizer: Output regularization function.

  10. trainable: Boolean type, indicating whether the parameters of this layer participate in training. If true, the variable is added to the graph collection GraphKeys.TRAINABLE_VARIABLES (see tf.Variable).

  11. name: The name of the layer.

  12. reuse: Boolean type, whether to reuse parameters.

Fully connected layer execution operation outputs = activation(inputs.kernel bias)

If the execution result does not want to be activated, Then set activation=None.

Example:

#全连接层
dense1 = tf.layers.dense(inputs=pool3, units=1024, activation=tf.nn.relu)
dense2= tf.layers.dense(inputs=dense1, units=512, activation=tf.nn.relu)
logits= tf.layers.dense(inputs=dense2, units=10, activation=None)
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You can also regularize the parameters of the fully connected layer:


Copy code The code is as follows:

dense1 = tf.layers.dense(inputs=pool3, units=1024, activation=tf.nn.relu,kernel_regularizer=tf.contrib.layers.l2_regularizer(0.003))
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Related recommendations:

A brief discussion on saving and restoring the Tensorflow model

Detailed explanation of the three ways to load data into tensorflow

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