Convolution Integral for one dimensional data. More...

Functions

AFAPI array convolve1 (const array &signal, const array &filter, const convMode mode=AF_CONV_DEFAULT, const convDomain domain=AF_CONV_AUTO)
 C++ Interface for convolution on one dimensional signals. More...
 
AFAPI af_err af_convolve1 (af_array *out, const af_array signal, const af_array filter, const af_conv_mode mode, af_conv_domain domain)
 C Interface for convolution on one dimensional signals. More...
 

Detailed Description

Convolution Integral for one dimensional data.

A convolution is a common operation between a source array, a, and a filter (or kernel) array b. The answer to the convolution is the same as computing the coefficients in polynomial multiplication, if a and b are the coefficients.

Another way to think about it is that the filter kernel is centered on each pixel in a, and the output for that pixel or data point is the sum of the products.

Depending on the dimensions of the input signal and the filter signal, any one of the following batch mode convolutions take place.

For example, if the input size is m along 0th dimension, then the possible batch operations are as follows.

Input Signal Dimensions Filter Dimensions Output Dimensions Batch Mode Explanation
[m n 1 1] [m n 1 1] [m n 1 1] No Batch Output will be a single convolve array
[m n 1 1] [m n p 1] [m n p 1] Filter is Batched p filters applied to same input
[m n p 1] [m n 1 1] [m n p 1] Signal is Batched 1 filter applied to p inputs
[m n p 1] [m n p 1] [m n p 1] Identical Batches p filters applied to p inputs in one-to-one correspondence
[m n p 1] [m n 1 q] [m n p q] Non-overlapping batches q filters applied to p inputs in to produce p x q results
[m n 1 p] [m n q 1] [m n q p] Non-overlapping batches q filters applied to p inputs in to produce q x p results

Function Documentation

AFAPI af_err af_convolve1 ( af_array out,
const af_array  signal,
const af_array  filter,
const af_conv_mode  mode,
af_conv_domain  domain 
)

C Interface for convolution on one dimensional signals.

Parameters
[out]outis convolved array
[in]signalis the input signal
[in]filteris the signal that shall be flipped for the convolution operation
[in]modeindicates if the convolution should be expanded or not(where output size equals input)
[in]domainspecifies if the convolution should be performed in frequency os spatial domain
Returns
AF_SUCCESS if the convolution is successful, otherwise an appropriate error code is returned.
Note
The default parameter of domain, AF_CONV_AUTO, heuristically switches between frequency and spatial domain.
AFAPI array af::convolve1 ( const array signal,
const array filter,
const convMode  mode = AF_CONV_DEFAULT,
const convDomain  domain = AF_CONV_AUTO 
)

C++ Interface for convolution on one dimensional signals.

//vector<dim4> numDims;
//vector<vector<float> > in;
af::array signal(numDims[0], &(in[0].front()));
//signal dims = [32 1 1 1]
af::array filter(numDims[1], &(in[1].front()));
//filter dims = [4 1 1 1]
af::array output = convolve1(signal, filter, AF_CONV_DEFAULT);
//output dims = [32 1 1 1] - same as input since expand(3rd argument is false)
//None of the dimensions > 1 has lenght > 1, so no batch mode is activated.
Parameters
[in]signalis the input signal
[in]filteris the signal that shall be flipped for the convolution operation
[in]modeindicates if the convolution should be expanded or not(where output size equals input)
[in]domainspecifies if the convolution should be performed in frequency os spatial domain
Returns
the convolved array
Note
The default parameter of domain, AF_CONV_AUTO, heuristically switches between frequency and spatial domain.