### Conv1D

```
keras.layers.convolutional.Conv1D(filters, kernel_size, strides=1, padding='valid', dilation_rate=1, activation=None, use_bias=True, kernel_initializer='glorot_uniform', bias_initializer='zeros', kernel_regularizer=None, bias_regularizer=None, activity_regularizer=None, kernel_constraint=None, bias_constraint=None)
```

1D convolution layer (e.g. temporal convolution).

This layer creates a convolution kernel that is convolved
with the layer input over a single spatial (or temporal) dimension
to produce a tensor of outputs.
If `use_bias`

is True, a bias vector is created and added to the outputs.
Finally, if `activation`

is not `None`

,
it is applied to the outputs as well.

When using this layer as the first layer in a model,
provide an `input_shape`

argument
(tuple of integers or `None`

, e.g.
`(10, 128)`

for sequences of 10 vectors of 128-dimensional vectors,
or `(None, 128)`

for variable-length sequences of 128-dimensional vectors.

**Arguments**

**filters**: Integer, the dimensionality of the output space (i.e. the number output of filters in the convolution).**kernel_size**: An integer or tuple/list of a single integer, specifying the length of the 1D convolution window.**strides**: An integer or tuple/list of a single integer, specifying the stride length of the convolution. Specifying any stride value != 1 is incompatible with specifying any`dilation_rate`

value != 1.**padding**: One of`"valid"`

,`"causal"`

or`"same"`

(case-insensitive).`"valid"`

means "no padding".`"same"`

results in padding the input such that the output has the same length as the original input.`"causal"`

results in causal (dilated) convolutions, e.g. output[t] does not depend on input[t+1:]. Useful when modeling temporal data where the model should not violate the temporal order. See WaveNet: A Generative Model for Raw Audio, section 2.1.**dilation_rate**: an integer or tuple/list of a single integer, specifying the dilation rate to use for dilated convolution. Currently, specifying any`dilation_rate`

value != 1 is incompatible with specifying any`strides`

value != 1.**activation**: Activation function to use (see activations). If you don't specify anything, no activation is applied (ie. "linear" activation:`a(x) = x`

).**use_bias**: Boolean, whether the layer uses a bias vector.**kernel_initializer**: Initializer for the`kernel`

weights matrix (see initializers).**bias_initializer**: Initializer for the bias vector (see initializers).**kernel_regularizer**: Regularizer function applied to the`kernel`

weights matrix (see regularizer).**bias_regularizer**: Regularizer function applied to the bias vector (see regularizer).**activity_regularizer**: Regularizer function applied to the output of the layer (its "activation"). (see regularizer).**kernel_constraint**: Constraint function applied to the kernel matrix (see constraints).**bias_constraint**: Constraint function applied to the bias vector (see constraints).

**Input shape**

3D tensor with shape: `(batch_size, steps, input_dim)`

**Output shape**

3D tensor with shape: `(batch_size, new_steps, filters)`

`steps`

value might have changed due to padding or strides.

### Conv2D

```
keras.layers.convolutional.Conv2D(filters, kernel_size, strides=(1, 1), padding='valid', data_format=None, dilation_rate=(1, 1), activation=None, use_bias=True, kernel_initializer='glorot_uniform', bias_initializer='zeros', kernel_regularizer=None, bias_regularizer=None, activity_regularizer=None, kernel_constraint=None, bias_constraint=None)
```

2D convolution layer (e.g. spatial convolution over images).

This layer creates a convolution kernel that is convolved
with the layer input to produce a tensor of
outputs. If `use_bias`

is True,
a bias vector is created and added to the outputs. Finally, if
`activation`

is not `None`

, it is applied to the outputs as well.

When using this layer as the first layer in a model,
provide the keyword argument `input_shape`

(tuple of integers, does not include the sample axis),
e.g. `input_shape=(128, 128, 3)`

for 128x128 RGB pictures
in `data_format="channels_last"`

.

**Arguments**

**filters**: Integer, the dimensionality of the output space (i.e. the number output of filters in the convolution).**kernel_size**: An integer or tuple/list of 2 integers, specifying the width and height of the 2D convolution window. Can be a single integer to specify the same value for all spatial dimensions.**strides**: An integer or tuple/list of 2 integers, specifying the strides of the convolution along the width and height. Can be a single integer to specify the same value for all spatial dimensions. Specifying any stride value != 1 is incompatible with specifying any`dilation_rate`

value != 1.**padding**: one of`"valid"`

or`"same"`

(case-insensitive).**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, height, width, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, height, width)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".**dilation_rate**: an integer or tuple/list of 2 integers, specifying the dilation rate to use for dilated convolution. Can be a single integer to specify the same value for all spatial dimensions. Currently, specifying any`dilation_rate`

value != 1 is incompatible with specifying any stride value != 1.**activation**: Activation function to use (see activations). If you don't specify anything, no activation is applied (ie. "linear" activation:`a(x) = x`

).**use_bias**: Boolean, whether the layer uses a bias vector.**kernel_initializer**: Initializer for the`kernel`

weights matrix (see initializers).**bias_initializer**: Initializer for the bias vector (see initializers).**kernel_regularizer**: Regularizer function applied to the`kernel`

weights matrix (see regularizer).**bias_regularizer**: Regularizer function applied to the bias vector (see regularizer).**activity_regularizer**: Regularizer function applied to the output of the layer (its "activation"). (see regularizer).**kernel_constraint**: Constraint function applied to the kernel matrix (see constraints).**bias_constraint**: Constraint function applied to the bias vector (see constraints).

**Input shape**

4D tensor with shape:
`(samples, channels, rows, cols)`

if data_format='channels_first'
or 4D tensor with shape:
`(samples, rows, cols, channels)`

if data_format='channels_last'.

**Output shape**

4D tensor with shape:
`(samples, filters, new_rows, new_cols)`

if data_format='channels_first'
or 4D tensor with shape:
`(samples, new_rows, new_cols, filters)`

if data_format='channels_last'.
`rows`

and `cols`

values might have changed due to padding.

### SeparableConv2D

```
keras.layers.convolutional.SeparableConv2D(filters, kernel_size, strides=(1, 1), padding='valid', data_format=None, depth_multiplier=1, activation=None, use_bias=True, depthwise_initializer='glorot_uniform', pointwise_initializer='glorot_uniform', bias_initializer='zeros', depthwise_regularizer=None, pointwise_regularizer=None, bias_regularizer=None, activity_regularizer=None, depthwise_constraint=None, pointwise_constraint=None, bias_constraint=None)
```

Depthwise separable 2D convolution.

Separable convolutions consist in first performing
a depthwise spatial convolution
(which acts on each input channel separately)
followed by a pointwise convolution which mixes together the resulting
output channels. The `depth_multiplier`

argument controls how many
output channels are generated per input channel in the depthwise step.

Intuitively, separable convolutions can be understood as a way to factorize a convolution kernel into two smaller kernels, or as an extreme version of an Inception block.

**Arguments**

**filters**: Integer, the dimensionality of the output space (i.e. the number output of filters in the convolution).**kernel_size**: An integer or tuple/list of 2 integers, specifying the width and height of the 2D convolution window. Can be a single integer to specify the same value for all spatial dimensions.**strides**: An integer or tuple/list of 2 integers, specifying the strides of the convolution along the width and height. Can be a single integer to specify the same value for all spatial dimensions. Specifying any stride value != 1 is incompatible with specifying any`dilation_rate`

value != 1.**padding**: one of`"valid"`

or`"same"`

(case-insensitive).**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, height, width, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, height, width)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".**depth_multiplier**: The number of depthwise convolution output channels for each input channel. The total number of depthwise convolution output channels will be equal to`filterss_in * depth_multiplier`

.**activation**: Activation function to use (see activations). If you don't specify anything, no activation is applied (ie. "linear" activation:`a(x) = x`

).**use_bias**: Boolean, whether the layer uses a bias vector.**depthwise_initializer**: Initializer for the depthwise kernel matrix (see initializers).**pointwise_initializer**: Initializer for the pointwise kernel matrix (see initializers).**bias_initializer**: Initializer for the bias vector (see initializers).**depthwise_regularizer**: Regularizer function applied to the depthwise kernel matrix (see regularizer).**pointwise_regularizer**: Regularizer function applied to the depthwise kernel matrix (see regularizer).**bias_regularizer**: Regularizer function applied to the bias vector (see regularizer).**activity_regularizer**: Regularizer function applied to the output of the layer (its "activation"). (see regularizer).**depthwise_constraint**: Constraint function applied to the depthwise kernel matrix (see constraints).**pointwise_constraint**: Constraint function applied to the pointwise kernel matrix (see constraints).**bias_constraint**: Constraint function applied to the bias vector (see constraints).

**Input shape**

4D tensor with shape:
`(batch, channels, rows, cols)`

if data_format='channels_first'
or 4D tensor with shape:
`(batch, rows, cols, channels)`

if data_format='channels_last'.

**Output shape**

4D tensor with shape:
`(batch, filters, new_rows, new_cols)`

if data_format='channels_first'
or 4D tensor with shape:
`(batch, new_rows, new_cols, filters)`

if data_format='channels_last'.
`rows`

and `cols`

values might have changed due to padding.

### Conv2DTranspose

```
keras.layers.convolutional.Conv2DTranspose(filters, kernel_size, strides=(1, 1), padding='valid', data_format=None, activation=None, use_bias=True, kernel_initializer='glorot_uniform', bias_initializer='zeros', kernel_regularizer=None, bias_regularizer=None, activity_regularizer=None, kernel_constraint=None, bias_constraint=None)
```

Transposed convolution layer (sometimes called Deconvolution).

The need for transposed convolutions generally arises from the desire to use a transformation going in the opposite direction of a normal convolution, i.e., from something that has the shape of the output of some convolution to something that has the shape of its input while maintaining a connectivity pattern that is compatible with said convolution.

When using this layer as the first layer in a model,
provide the keyword argument `input_shape`

(tuple of integers, does not include the sample axis),
e.g. `input_shape=(128, 128, 3)`

for 128x128 RGB pictures
in `data_format="channels_last"`

.

**Arguments**

**filters**: Integer, the dimensionality of the output space (i.e. the number of output filters in the convolution).**kernel_size**: An integer or tuple/list of 2 integers, specifying the width and height of the 2D convolution window. Can be a single integer to specify the same value for all spatial dimensions.**strides**: An integer or tuple/list of 2 integers, specifying the strides of the convolution along the width and height. Can be a single integer to specify the same value for all spatial dimensions. Specifying any stride value != 1 is incompatible with specifying any`dilation_rate`

value != 1.**padding**: one of`"valid"`

or`"same"`

(case-insensitive).**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, height, width, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, height, width)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".**dilation_rate**: an integer or tuple/list of 2 integers, specifying the dilation rate to use for dilated convolution. Can be a single integer to specify the same value for all spatial dimensions. Currently, specifying any`dilation_rate`

value != 1 is incompatible with specifying any stride value != 1.**activation**: Activation function to use (see activations). If you don't specify anything, no activation is applied (ie. "linear" activation:`a(x) = x`

).**use_bias**: Boolean, whether the layer uses a bias vector.**kernel_initializer**: Initializer for the`kernel`

weights matrix (see initializers).**bias_initializer**: Initializer for the bias vector (see initializers).**kernel_regularizer**: Regularizer function applied to the`kernel`

weights matrix (see regularizer).**bias_regularizer**: Regularizer function applied to the bias vector (see regularizer).**activity_regularizer**: Regularizer function applied to the output of the layer (its "activation"). (see regularizer).**kernel_constraint**: Constraint function applied to the kernel matrix (see constraints).**bias_constraint**: Constraint function applied to the bias vector (see constraints).

**Input shape**

4D tensor with shape:
`(batch, channels, rows, cols)`

if data_format='channels_first'
or 4D tensor with shape:
`(batch, rows, cols, channels)`

if data_format='channels_last'.

**Output shape**

4D tensor with shape:
`(batch, filters, new_rows, new_cols)`

if data_format='channels_first'
or 4D tensor with shape:
`(batch, new_rows, new_cols, filters)`

if data_format='channels_last'.
`rows`

and `cols`

values might have changed due to padding.

**References**

### Conv3D

```
keras.layers.convolutional.Conv3D(filters, kernel_size, strides=(1, 1, 1), padding='valid', data_format=None, dilation_rate=(1, 1, 1), activation=None, use_bias=True, kernel_initializer='glorot_uniform', bias_initializer='zeros', kernel_regularizer=None, bias_regularizer=None, activity_regularizer=None, kernel_constraint=None, bias_constraint=None)
```

3D convolution layer (e.g. spatial convolution over volumes).

This layer creates a convolution kernel that is convolved
with the layer input to produce a tensor of
outputs. If `use_bias`

is True,
a bias vector is created and added to the outputs. Finally, if
`activation`

is not `None`

, it is applied to the outputs as well.

When using this layer as the first layer in a model,
provide the keyword argument `input_shape`

(tuple of integers, does not include the sample axis),
e.g. `input_shape=(128, 128, 128, 1)`

for 128x128x128 volumes
with a single channel,
in `data_format="channels_last"`

.

**Arguments**

**filters**: Integer, the dimensionality of the output space (i.e. the number output of filters in the convolution).**kernel_size**: An integer or tuple/list of 3 integers, specifying the depth, height and width of the 3D convolution window. Can be a single integer to specify the same value for all spatial dimensions.**strides**: An integer or tuple/list of 3 integers, specifying the strides of the convolution along each spatial dimension. Can be a single integer to specify the same value for all spatial dimensions. Specifying any stride value != 1 is incompatible with specifying any`dilation_rate`

value != 1.**padding**: one of`"valid"`

or`"same"`

(case-insensitive).**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, spatial_dim1, spatial_dim2, spatial_dim3, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, spatial_dim1, spatial_dim2, spatial_dim3)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".**dilation_rate**: an integer or tuple/list of 3 integers, specifying the dilation rate to use for dilated convolution. Can be a single integer to specify the same value for all spatial dimensions. Currently, specifying any`dilation_rate`

value != 1 is incompatible with specifying any stride value != 1.**activation**: Activation function to use (see activations). If you don't specify anything, no activation is applied (ie. "linear" activation:`a(x) = x`

).**use_bias**: Boolean, whether the layer uses a bias vector.**kernel_initializer**: Initializer for the`kernel`

weights matrix (see initializers).**bias_initializer**: Initializer for the bias vector (see initializers).**kernel_regularizer**: Regularizer function applied to the`kernel`

weights matrix (see regularizer).**bias_regularizer**: Regularizer function applied to the bias vector (see regularizer).**activity_regularizer**: Regularizer function applied to the output of the layer (its "activation"). (see regularizer).**kernel_constraint**: Constraint function applied to the kernel matrix (see constraints).**bias_constraint**: Constraint function applied to the bias vector (see constraints).

**Input shape**

5D tensor with shape:
`(samples, channels, conv_dim1, conv_dim2, conv_dim3)`

if data_format='channels_first'
or 5D tensor with shape:
`(samples, conv_dim1, conv_dim2, conv_dim3, channels)`

if data_format='channels_last'.

**Output shape**

5D tensor with shape:
`(samples, filters, new_conv_dim1, new_conv_dim2, new_conv_dim3)`

if data_format='channels_first'
or 5D tensor with shape:
`(samples, new_conv_dim1, new_conv_dim2, new_conv_dim3, filters)`

if data_format='channels_last'.
`new_conv_dim1`

, `new_conv_dim2`

and `new_conv_dim3`

values might have changed due to padding.

### Cropping1D

```
keras.layers.convolutional.Cropping1D(cropping=(1, 1))
```

Cropping layer for 1D input (e.g. temporal sequence).

It crops along the time dimension (axis 1).

**Arguments**

**cropping**: int or tuple of int (length 2) How many units should be trimmed off at the beginning and end of the cropping dimension (axis 1). If a single int is provided, the same value will be used for both.

**Input shape**

3D tensor with shape `(batch, axis_to_crop, features)`

**Output shape**

3D tensor with shape `(batch, cropped_axis, features)`

### Cropping2D

```
keras.layers.convolutional.Cropping2D(cropping=((0, 0), (0, 0)), data_format=None)
```

Cropping layer for 2D input (e.g. picture).

It crops along spatial dimensions, i.e. width and height.

**Arguments**

**cropping**: int, or tuple of 2 ints, or tuple of 2 tuples of 2 ints.- If int: the same symmetric cropping is applied to width and height.
- If tuple of 2 ints:
interpreted as two different
symmetric cropping values for height and width:
`(symmetric_height_crop, symmetric_width_crop)`

. - If tuple of 2 tuples of 2 ints:
interpreted as
`((top_crop, bottom_crop), (left_crop, right_crop))`

**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, height, width, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, height, width)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".

**Input shape**

4D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, rows, cols, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, rows, cols)`

**Output shape**

4D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, cropped_rows, cropped_cols, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, cropped_rows, cropped_cols)`

**Examples**

```
# Crop the input 2D images or feature maps
model = Sequential()
model.add(Cropping2D(cropping=((2, 2), (4, 4)),
input_shape=(28, 28, 3)))
# now model.output_shape == (None, 24, 20, 3)
model.add(Conv2D(64, (3, 3), padding='same'))
model.add(Cropping2D(cropping=((2, 2), (2, 2))))
# now model.output_shape == (None, 20, 16. 64)
```

### Cropping3D

```
keras.layers.convolutional.Cropping3D(cropping=((1, 1), (1, 1), (1, 1)), data_format=None)
```

Cropping layer for 3D data (e.g. spatial or spatio-temporal).

**Arguments**

**cropping**: int, or tuple of 2 ints, or tuple of 2 tuples of 2 ints.- If int: the same symmetric cropping is applied to width and height.
- If tuple of 2 ints:
interpreted as two different
symmetric cropping values for height and width:
`(symmetric_dim1_crop, symmetric_dim2_crop, symmetric_dim3_crop)`

. - If tuple of 2 tuples of 2 ints:
interpreted as
`((left_dim1_crop, right_dim1_crop), (left_dim2_crop, right_dim2_crop), (left_dim3_crop, right_dim3_crop))`

**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, spatial_dim1, spatial_dim2, spatial_dim3, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, spatial_dim1, spatial_dim2, spatial_dim3)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".

**Input shape**

5D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, first_axis_to_crop, second_axis_to_crop, third_axis_to_crop, depth)`

- If `data_format`

is `"channels_first"`

:
`(batch, depth, first_axis_to_crop, second_axis_to_crop, third_axis_to_crop)`

**Output shape**

5D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, first_cropped_axis, second_cropped_axis, third_cropped_axis, depth)`

- If `data_format`

is `"channels_first"`

:
`(batch, depth, first_cropped_axis, second_cropped_axis, third_cropped_axis)`

### UpSampling1D

```
keras.layers.convolutional.UpSampling1D(size=2)
```

Upsampling layer for 1D inputs.

Repeats each temporal step `size`

times along the time axis.

**Arguments**

**size**: integer. Upsampling factor.

**Input shape**

3D tensor with shape: `(batch, steps, features)`

.

**Output shape**

3D tensor with shape: `(batch, upsampled_steps, features)`

.

### UpSampling2D

```
keras.layers.convolutional.UpSampling2D(size=(2, 2), data_format=None)
```

Upsampling layer for 2D inputs.

Repeats the rows and columns of the data by size[0] and size[1] respectively.

**Arguments**

**size**: int, or tuple of 2 integers. The upsampling factors for rows and columns.**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, height, width, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, height, width)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".

**Input shape**

4D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, rows, cols, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, rows, cols)`

**Output shape**

4D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, upsampled_rows, upsampled_cols, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, upsampled_rows, upsampled_cols)`

### UpSampling3D

```
keras.layers.convolutional.UpSampling3D(size=(2, 2, 2), data_format=None)
```

Upsampling layer for 3D inputs.

Repeats the 1st, 2nd and 3rd dimensions of the data by size[0], size[1] and size[2] respectively.

**Arguments**

**size**: int, or tuple of 3 integers. The upsampling factors for dim1, dim2 and dim3.**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, spatial_dim1, spatial_dim2, spatial_dim3, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, spatial_dim1, spatial_dim2, spatial_dim3)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".

**Input shape**

5D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, dim1, dim2, dim3, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, dim1, dim2, dim3)`

**Output shape**

5D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, upsampled_dim1, upsampled_dim2, upsampled_dim3, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, upsampled_dim1, upsampled_dim2, upsampled_dim3)`

### ZeroPadding1D

```
keras.layers.convolutional.ZeroPadding1D(padding=1)
```

Zero-padding layer for 1D input (e.g. temporal sequence).

**Arguments**

**padding**: int, or tuple of int (length 2), or dictionary.- If int: How many zeros to add at the beginning and end of the padding dimension (axis 1).
- If tuple of int (length 2):
How many zeros to add at the beginning and at the end of
the padding dimension (
`(left_pad, right_pad)`

).

**Input shape**

3D tensor with shape `(batch, axis_to_pad, features)`

**Output shape**

3D tensor with shape `(batch, padded_axis, features)`

### ZeroPadding2D

```
keras.layers.convolutional.ZeroPadding2D(padding=(1, 1), data_format=None)
```

Zero-padding layer for 2D input (e.g. picture).

This layer can add rows and columns of zeros at the top, bottom, left and right side of an image tensor.

**Arguments**

**padding**: int, or tuple of 2 ints, or tuple of 2 tuples of 2 ints.- If int: the same symmetric padding is applied to width and height.
- If tuple of 2 ints:
interpreted as two different
symmetric padding values for height and width:
`(symmetric_height_pad, symmetric_width_pad)`

. - If tuple of 2 tuples of 2 ints:
interpreted as
`((top_pad, bottom_pad), (left_pad, right_pad))`

**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, height, width, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, height, width)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".

**Input shape**

4D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, rows, cols, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, rows, cols)`

**Output shape**

4D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, padded_rows, padded_cols, channels)`

- If `data_format`

is `"channels_first"`

:
`(batch, channels, padded_rows, padded_cols)`

### ZeroPadding3D

```
keras.layers.convolutional.ZeroPadding3D(padding=(1, 1, 1), data_format=None)
```

Zero-padding layer for 3D data (spatial or spatio-temporal).

**Arguments**

**padding**: int, or tuple of 2 ints, or tuple of 2 tuples of 2 ints.- If int: the same symmetric padding is applied to width and height.
- If tuple of 2 ints:
interpreted as two different
symmetric padding values for height and width:
`(symmetric_dim1_pad, symmetric_dim2_pad, symmetric_dim3_pad)`

. - If tuple of 2 tuples of 2 ints:
interpreted as
`((left_dim1_pad, right_dim1_pad), (left_dim2_pad, right_dim2_pad), (left_dim3_pad, right_dim3_pad))`

**data_format**: A string, one of`channels_last`

(default) or`channels_first`

. The ordering of the dimensions in the inputs.`channels_last`

corresponds to inputs with shape`(batch, spatial_dim1, spatial_dim2, spatial_dim3, channels)`

while`channels_first`

corresponds to inputs with shape`(batch, channels, spatial_dim1, spatial_dim2, spatial_dim3)`

. It defaults to the`image_data_format`

value found in your Keras config file at`~/.keras/keras.json`

. If you never set it, then it will be "channels_last".

**Input shape**

5D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, first_axis_to_pad, second_axis_to_pad, third_axis_to_pad, depth)`

- If `data_format`

is `"channels_first"`

:
`(batch, depth, first_axis_to_pad, second_axis_to_pad, third_axis_to_pad)`

**Output shape**

5D tensor with shape:
- If `data_format`

is `"channels_last"`

:
`(batch, first_padded_axis, second_padded_axis, third_axis_to_pad, depth)`

- If `data_format`

is `"channels_first"`

:
`(batch, depth, first_padded_axis, second_padded_axis, third_axis_to_pad)`