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tf.nn.conv2d和tf.contrib.slim.con

tf.nn.conv2d和tf.contrib.slim.con

作者: 马小李23 | 来源:发表于2017-10-14 15:43 被阅读3653次

在查看代码的时候,看到有代码用到卷积层是tf.nn.conv2d,但是也有的使用的卷积层是tf.contrib.slim.conv2d,这两个函数调用的卷积层是否一致,在查看了API的文档,以及slim.conv2d的源码后,做如下总结:
首先是常见使用的tf.nn.conv2d的函数,其定义如下:

conv2d(
    input,
    filter,
    strides,
    padding,
    use_cudnn_on_gpu=None,
    data_format=None,
    name=None
)

input指需要做卷积的输入图像,它要求是一个Tensor,具有[batch_size, in_height, in_width, in_channels]这样的shape,具体含义是[训练时一个batch的图片数量, 图片高度, 图片宽度, 图像通道数],注意这是一个4维的Tensor,要求数据类型为float32和float64其中之一
filter用于指定CNN中的卷积核,它要求是一个Tensor,具有[filter_height, filter_width, in_channels, out_channels]这样的shape,具体含义是[卷积核的高度,卷积核的宽度,图像通道数,卷积核个数],要求类型与参数input相同,有一个地方需要注意,第三维in_channels,就是参数input的第四维,这里是维度一致,不是数值一致
strides为卷积时在图像每一维的步长,这是一个一维的向量,长度为4,对应的是在input的4个维度上的步长
padding是string类型的变量,只能是"SAME","VALID"其中之一,这个值决定了不同的卷积方式,SAME代表卷积核可以停留图像边缘,VALID表示不能,更详细的描述可以参考http://blog.csdn.net/mao_xiao_feng/article/details/53444333
use_cudnn_on_gpu指定是否使用cudnn加速,默认为true
data_format是用于指定输入的input的格式,默认为NHWC格式

结果返回一个Tensor,这个输出,就是我们常说的feature map

而对于tf.contrib.slim.conv2d,其函数定义如下:

convolution(inputs,
          num_outputs,
          kernel_size,
          stride=1,
          padding='SAME',
          data_format=None,
          rate=1,
          activation_fn=nn.relu,
          normalizer_fn=None,
          normalizer_params=None,
          weights_initializer=initializers.xavier_initializer(),
          weights_regularizer=None,
          biases_initializer=init_ops.zeros_initializer(),
          biases_regularizer=None,
          reuse=None,
          variables_collections=None,
          outputs_collections=None,
          trainable=True,
          scope=None):

inputs同样是指需要做卷积的输入图像
num_outputs指定卷积核的个数(就是filter的个数)
kernel_size用于指定卷积核的维度(卷积核的宽度,卷积核的高度)
stride为卷积时在图像每一维的步长
padding为padding的方式选择,VALID或者SAME
data_format是用于指定输入的input的格式
rate这个参数不是太理解,而且tf.nn.conv2d中也没有,对于使用atrous convolution的膨胀率(不是太懂这个atrous convolution)
activation_fn用于激活函数的指定,默认的为ReLU函数
normalizer_fn用于指定正则化函数
normalizer_params用于指定正则化函数的参数
weights_initializer用于指定权重的初始化程序
weights_regularizer为权重可选的正则化程序
biases_initializer用于指定biase的初始化程序
biases_regularizer: biases可选的正则化程序
reuse指定是否共享层或者和变量
variable_collections指定所有变量的集合列表或者字典
outputs_collections指定输出被添加的集合
trainable:卷积层的参数是否可被训练
scope:共享变量所指的variable_scope

在上述的API中,可以看出去除掉初始化的部分,那么两者并没有什么不同,只是tf.contrib.slim.conv2d提供了更多可以指定的初始化的部分,而对于tf.nn.conv2d而言,其指定filter的方式相比较tf.contrib.slim.conv2d来说,更加的复杂。去除掉少用的初始化部分,其实两者的API可以简化如下:

tf.contrib.slim.conv2d (inputs,
                num_outputs,[卷积核个数]
                kernel_size,[卷积核的高度,卷积核的宽度]
                stride=1,
                padding='SAME',
)
tf.nn.conv2d(
    input,(与上述一致)
    filter,([卷积核的高度,卷积核的宽度,图像通道数,卷积核个数])
    strides,
    padding,
)

可以说两者是几乎相同的,运行下列代码也可知这两者一致

import tensorflow as tf 
import tensorflow.contrib.slim as slim
 
x1 = tf.ones(shape=[1, 64, 64, 3]) 
w = tf.fill([5, 5, 3, 64], 1)
# print("rank is", tf.rank(x1))
y1 = tf.nn.conv2d(x1, w, strides=[1, 1, 1, 1], padding='SAME')
y2 = slim.conv2d(x1, 64, [5, 5], weights_initializer=tf.ones_initializer, padding='SAME')
 
 
with tf.Session() as sess: 
    sess.run(tf.global_variables_initializer()) 
    y1_value,y2_value,x1_value=sess.run([y1,y2,x1])
    print("shapes are", y1_value.shape, y2_value.shape)
    print(y1_value==y2_value)
    print(y1_value)
    print(y2_value)

最后配上tf.contrib.slim.conv2d的API英文版

def convolution(inputs,
                num_outputs,
                kernel_size,
                stride=1,
                padding='SAME',
                data_format=None,
                rate=1,
                activation_fn=nn.relu,
                normalizer_fn=None,
                normalizer_params=None,
                weights_initializer=initializers.xavier_initializer(),
                weights_regularizer=None,
                biases_initializer=init_ops.zeros_initializer(),
                biases_regularizer=None,
                reuse=None,
                variables_collections=None,
                outputs_collections=None,
                trainable=True,
                scope=None):
  """Adds an N-D convolution followed by an optional batch_norm layer.
  It is required that 1 <= N <= 3.
  `convolution` creates a variable called `weights`, representing the
  convolutional kernel, that is convolved (actually cross-correlated) with the
  `inputs` to produce a `Tensor` of activations. If a `normalizer_fn` is
  provided (such as `batch_norm`), it is then applied. Otherwise, if
  `normalizer_fn` is None and a `biases_initializer` is provided then a `biases`
  variable would be created and added the activations. Finally, if
  `activation_fn` is not `None`, it is applied to the activations as well.
  Performs atrous convolution with input stride/dilation rate equal to `rate`
  if a value > 1 for any dimension of `rate` is specified.  In this case
  `stride` values != 1 are not supported.
  Args:
    inputs: A Tensor of rank N+2 of shape
      `[batch_size] + input_spatial_shape + [in_channels]` if data_format does
      not start with "NC" (default), or
      `[batch_size, in_channels] + input_spatial_shape` if data_format starts
      with "NC".
    num_outputs: Integer, the number of output filters.
    kernel_size: A sequence of N positive integers specifying the spatial
      dimensions of the filters.  Can be a single integer to specify the same
      value for all spatial dimensions.
    stride: A sequence of N positive integers specifying the stride at which to
      compute output.  Can be a single integer to specify the same value for all
      spatial dimensions.  Specifying any `stride` value != 1 is incompatible
      with specifying any `rate` value != 1.
    padding: One of `"VALID"` or `"SAME"`.
    data_format: A string or None.  Specifies whether the channel dimension of
      the `input` and output is the last dimension (default, or if `data_format`
      does not start with "NC"), or the second dimension (if `data_format`
      starts with "NC").  For N=1, the valid values are "NWC" (default) and
      "NCW".  For N=2, the valid values are "NHWC" (default) and "NCHW".
      For N=3, the valid values are "NDHWC" (default) and "NCDHW".
    rate: A sequence of N positive integers specifying the dilation rate to use
      for atrous convolution.  Can be a single integer to specify the same
      value for all spatial dimensions.  Specifying any `rate` value != 1 is
      incompatible with specifying any `stride` value != 1.
    activation_fn: Activation function. The default value is a ReLU function.
      Explicitly set it to None to skip it and maintain a linear activation.
    normalizer_fn: Normalization function to use instead of `biases`. If
      `normalizer_fn` is provided then `biases_initializer` and
      `biases_regularizer` are ignored and `biases` are not created nor added.
      default set to None for no normalizer function
    normalizer_params: Normalization function parameters.
    weights_initializer: An initializer for the weights.
    weights_regularizer: Optional regularizer for the weights.
    biases_initializer: An initializer for the biases. If None skip biases.
    biases_regularizer: Optional regularizer for the biases.
    reuse: Whether or not the layer and its variables should be reused. To be
      able to reuse the layer scope must be given.
    variables_collections: Optional list of collections for all the variables or
      a dictionary containing a different list of collection per variable.
    outputs_collections: Collection to add the outputs.
    trainable: If `True` also add variables to the graph collection
      `GraphKeys.TRAINABLE_VARIABLES` (see tf.Variable).
    scope: Optional scope for `variable_scope`.
  Returns:
    A tensor representing the output of the operation.
  Raises:
    ValueError: If `data_format` is invalid.
    ValueError: Both 'rate' and `stride` are not uniformly 1.

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