## Convolution {#openvino_docs_ops_convolution_Convolution_1}
**Versioned name**: *Convolution-1*
**Category**: Convolution
**Short description**: [Reference](http://caffe.berkeleyvision.org/tutorial/layers/convolution.html)
**Detailed description**: [Reference](http://cs231n.github.io/convolutional-networks/#conv)
* For the convolutional layer, the number of output features in each dimension is calculated using the formula:
\f[
n_{out} = \left ( \frac{n_{in} + 2p - k}{s} \right ) + 1
\f]
* The receptive field in each layer is calculated using the formulas:
* Jump in the output feature map:
\f[
j_{out} = j_{in} * s
\f]
* Size of the receptive field of output feature:
\f[
r_{out} = r_{in} + ( k - 1 ) * j_{in}
\f]
* Center position of the receptive field of the first output feature:
\f[
start_{out} = start_{in} + ( \frac{k - 1}{2} - p ) * j_{in}
\f]
* Output is calculated using the following formula:
\f[
out = \sum_{i = 0}^{n}w_{i}x_{i} + b
\f]
**Attributes**
* *strides*
* **Description**: *strides* is a distance (in pixels) to slide the filter on the feature map over the (z, y, x) axes for 3D convolutions and (y, x) axes for 2D convolutions. For example, *strides* equal *4,2,1* means sliding the filter 4 pixel at a time over depth dimension, 2 over height dimension and 1 over width dimension.
* **Range of values**: integer values starting from 0
* **Type**: int[]
* **Default value**: None
* **Required**: *yes*
* *pads_begin*
* **Description**: *pads_begin* is a number of pixels to add to the beginning along each axis. For example, *pads_begin* equal *1,2* means adding 1 pixel to the top of the input and 2 to the left of the input.
* **Range of values**: integer values starting from 0
* **Type**: int[]
* **Default value**: None
* **Required**: *yes*
* **Note**: the attribute is ignored when *auto_pad* attribute is specified.
* *pads_end*
* **Description**: *pads_end* is a number of pixels to add to the ending along each axis. For example, *pads_end* equal *1,2* means adding 1 pixel to the bottom of the input and 2 to the right of the input.
* **Range of values**: integer values starting from 0
* **Type**: int[]
* **Default value**: None
* **Required**: *yes*
* **Note**: the attribute is ignored when *auto_pad* attribute is specified.
* *dilations*
* **Description**: *dilations* denotes the distance in width and height between elements (weights) in the filter. For example, *dilation* equal *1,1* means that all the elements in the filter are neighbors, so it is the same as for the usual convolution. *dilation* equal *2,2* means that all the elements in the filter are matched not to adjacent elements in the input matrix, but to those that are adjacent with distance 1.
* **Range of values**: integer value starting from 0
* **Type**: int[]
* **Default value**: None
* **Required**: *yes*
* *auto_pad*
* **Description**: *auto_pad* how the padding is calculated. Possible values:
* None (not specified): use explicit padding values.
* *same_upper (same_lower)* the input is padded to match the output size. In case of odd padding value an extra padding is added at the end (at the beginning).
* *valid* - do not use padding.
* **Type**: string
* **Default value**: None
* **Required**: *no*
* **Note**: *pads_begin* and *pads_end* attributes are ignored when *auto_pad* is specified.
**Inputs**:
* **1**: Input tensor of rank 3 or greater. Required.
* **2**: Convolution kernel tensor. Weights layout is OIYX (OIZYX for 3D convolution), which means that *X* is changing the fastest, then *Y*, then *Input*, then *Output*. The size of the kernel is derived from the shape of this input and not specified by any attribute. Required.
**Example**
```xml
1322422464355
```