Computes sums of N-D convolutions (actually cross-correlation).

tf.compat.v1.nn.convolution( input, filter, padding, strides=None, dilation_rate=None, name=None, data_format=None, filters=None, dilations=None )

This also supports either output striding via the optional `strides`

parameter or atrous convolution (also known as convolution with holes or dilated convolution, based on the French word "trous" meaning holes in English) via the optional `dilation_rate`

parameter. Currently, however, output striding is not supported for atrous convolutions.

Specifically, in the case that `data_format`

does not start with "NC", given a rank (N+2) `input`

Tensor of shape

[num_batches, input_spatial_shape[0], ..., input_spatial_shape[N-1], num_input_channels],

a rank (N+2) `filter`

Tensor of shape

[spatial_filter_shape[0], ..., spatial_filter_shape[N-1], num_input_channels, num_output_channels],

an optional `dilation_rate`

tensor of shape N specifying the filter upsampling/input downsampling rate, and an optional list of N `strides`

(defaulting [1]*N), this computes for each N-D spatial output position (x[0], ..., x[N-1]):

output[b, x[0], ..., x[N-1], k] = sum_{z[0], ..., z[N-1], q} filter[z[0], ..., z[N-1], q, k] * padded_input[b, x[0]*strides[0] + dilation_rate[0]*z[0], ..., x[N-1]*strides[N-1] + dilation_rate[N-1]*z[N-1], q]

where b is the index into the batch, k is the output channel number, q is the input channel number, and z is the N-D spatial offset within the filter. Here, `padded_input`

is obtained by zero padding the input using an effective spatial filter shape of `(spatial_filter_shape-1) * dilation_rate + 1`

and output striding `strides`

as described in the comment here.

In the case that `data_format`

does start with `"NC"`

, the `input`

and output (but not the `filter`

) are simply transposed as follows:

convolution(input, data_format, **kwargs) = tf.transpose(convolution(tf.transpose(input, [0] + range(2,N+2) + [1]), **kwargs), [0, N+1] + range(1, N+1))

It is required that 1 <= N <= 3.

Args | |
---|---|

`input` | An (N+2)-D `Tensor` of type `T` , 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". |

`filter` | An (N+2)-D `Tensor` with the same type as `input` and shape `spatial_filter_shape + [in_channels, out_channels]` . |

`padding` | A string, either `"VALID"` or `"SAME"` . The padding algorithm. |

`strides` | Optional. Sequence of N ints >= 1. Specifies the output stride. Defaults to [1]*N. If any value of strides is > 1, then all values of dilation_rate must be 1. |

`dilation_rate` | Optional. Sequence of N ints >= 1. Specifies the filter upsampling/input downsampling rate. In the literature, the same parameter is sometimes called `input stride` or `dilation` . The effective filter size used for the convolution will be `spatial_filter_shape + (spatial_filter_shape - 1) * (rate - 1)` , obtained by inserting (dilation_rate[i]-1) zeros between consecutive elements of the original filter in each spatial dimension i. If any value of dilation_rate is > 1, then all values of strides must be 1. |

`name` | Optional name for the returned tensor. |

`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". |

Returns | |
---|---|

A `Tensor` with the same type as `input` of shape
if data_format is None or does not start with "NC", or
if data_format starts with "NC", where If padding == "SAME": output_spatial_shape[i] = ceil(input_spatial_shape[i] / strides[i]) If padding == "VALID": output_spatial_shape[i] = ceil((input_spatial_shape[i] - (spatial_filter_shape[i]-1) * dilation_rate[i]) / strides[i]). |

Raises | |
---|---|

`ValueError` | If input/output depth does not match `filter` shape, if padding is other than `"VALID"` or `"SAME"` , or if data_format is invalid. |

© 2020 The TensorFlow Authors. All rights reserved.

Licensed under the Creative Commons Attribution License 3.0.

Code samples licensed under the Apache 2.0 License.

https://www.tensorflow.org/versions/r2.3/api_docs/python/tf/compat/v1/nn/convolution