Fast Fourier Transform. More...

Functions
AFAPI array	fftNorm (const array &in, const double norm_factor, const dim_t odim0=0)
	C++ Interface for fast fourier transform on one dimensional signals. More...

AFAPI void	fftInPlace (array &in, const double norm_factor=1)
	C++ Interface for fast fourier transform on one dimensional signals. More...

AFAPI array	fft (const array &in, const dim_t odim0=0)
	C++ Interface for fast fourier transform on one dimensional signals. More...

AFAPI array	dft (const array &in, const double norm_factor, const dim4 outDims)
	C++ Interface for fast fourier transform on any(1d, 2d, 3d) dimensional signals. More...

AFAPI array	dft (const array &in, const dim4 outDims)
	C++ Interface for fast fourier transform on any(1d, 2d, 3d) dimensional signals. More...

AFAPI array	dft (const array &in)
	C++ Interface for fast fourier transform on any(1d, 2d, 3d) dimensional signals. More...

AFAPI array	idft (const array &in, const double norm_factor, const dim4 outDims)
	C++ Interface for inverse fast fourier transform on any(1d, 2d, 3d) dimensional signals. More...

AFAPI array	idft (const array &in, const dim4 outDims)
	C++ Interface for inverse fast fourier transform on any(1d, 2d, 3d) dimensional signals. More...

AFAPI array	idft (const array &in)
	C++ Interface for inverse fast fourier transform on any(1d, 2d, 3d) dimensional signals. More...

AFAPI af_err	af_fft (af_array *out, const af_array in, const double norm_factor, const dim_t odim0)
	C Interface for fast fourier transform on one dimensional signals. More...

AFAPI af_err	af_fft_inplace (af_array in, const double norm_factor)
	C Interface for fast fourier transform on one dimensional signals. More...

Detailed Description

Fast Fourier Transform.

The Fast Fourier Transform (FFT) is an efficient algorithm to compute the discrete Fourier transform (DFT) of a signal or array. This is most commonly used to convert data in the time (or space) domain to the frequency domain, Then, the inverse FFT (iFFT) is used to return the data to the original domain.

There are numerous algorithms to compute the FFT of an array, and the specifics of the algorithm depend on the target hardware. Most algorithms, however, use a Cooley-Tukey scheme in a divide-and-conquer approach.

Note: There are some convenience functions provided for fft where normalization factor is not required as input paramter. In such cases, the normalization factor is calculated internally based on the input data provided.

Function Documentation

AFAPI af_err af_fft	(	af_array *	out,
		const af_array	in,
		const double	norm_factor,
		const dim_t	odim0
	)

C Interface for fast fourier transform on one dimensional signals.

Parameters

[out]	out	is the transformed array
[in]	in	is the input array
[in]	norm_factor	is the normalization factor with which the input is scaled before the transformation is applied
[in]	odim0	is the length of output signals - used to either truncate or pad the input signals

Returns: AF_SUCCESS if the fft transform is successful, otherwise an appropriate error code is returned.

AFAPI af_err af_fft_inplace	(	af_array	in,
		const double	norm_factor
	)

C Interface for fast fourier transform on one dimensional signals.

Parameters

[in,out]	in	is the input array on entry and the output of 1D forward fourier transform at exit
[in]	norm_factor	is the normalization factor with which the input is scaled before the transformation is applied

Returns: AF_SUCCESS if the fft transform is successful, otherwise an appropriate error code is returned.

Note: The input in must be a complex array

AFAPI array af::dft	(	const array &	in,
		const double	norm_factor,
		const dim4	outDims
	)

C++ Interface for fast fourier transform on any(1d, 2d, 3d) dimensional signals.

Parameters

[in]	in	is the input array
[in]	norm_factor	is the normalization factor with which the input is scaled before the transformation is applied
[in]	outDims	is an object of dim4 that has the output array dimensions - used to either truncate or pad the input signals

Returns: the transformed array

AFAPI array af::dft	(	const array &	in,
		const dim4	outDims
	)

C++ Interface for fast fourier transform on any(1d, 2d, 3d) dimensional signals.

This version of fft function uses a default norm_factor parameter that is calculated internally based on the input signals.

Parameters

[in]	in	is the input array
[in]	outDims	is an object of dim4 that has the output array dimensions - used to either truncate or pad the input signals

Returns: the transformed array

AFAPI array af::dft ( const array & in )

C++ Interface for fast fourier transform on any(1d, 2d, 3d) dimensional signals.

This version of fft function uses a default norm_factor parameter that is calculated internally based on the input signals.

Parameters

[in] in is the input array

Returns: the transformed array

AFAPI array af::fft	(	const array &	in,
		const dim_t	odim0 = `0`
	)

C++ Interface for fast fourier transform on one dimensional signals.

This version of fft function uses a default norm_factor parameter that is calculated internally based on the input signals.

Parameters

[in]	in	is the input array
[in]	odim0	is the length of output signals - used to either truncate or pad the input signals

Returns: the transformed array

Examples:: helloworld/helloworld.cpp.

AFAPI void af::fftInPlace	(	array &	in,
		const double	norm_factor = `1`
	)

C++ Interface for fast fourier transform on one dimensional signals.

Parameters

[in,out]	in	is the input array on entry and the output of 1D forward fourier transform on exit
[in]	norm_factor	is the normalization factor with which the input is scaled before the transformation is applied

Note: The input in must be complex

AFAPI array af::fftNorm	(	const array &	in,
		const double	norm_factor,
		const dim_t	odim0 = `0`
	)

C++ Interface for fast fourier transform on one dimensional signals.

Parameters

[in]	in	is the input array
[in]	norm_factor	is the normalization factor with which the input is scaled before the transformation is applied
[in]	odim0	is the length of output signals - used to either truncate or pad the input signals

Returns: the transformed array

AFAPI array af::idft	(	const array &	in,
		const double	norm_factor,
		const dim4	outDims
	)

C++ Interface for inverse fast fourier transform on any(1d, 2d, 3d) dimensional signals.

Parameters

[in]	in	is the input array
[in]	norm_factor	is the normalization factor with which the input is scaled before the transformation is applied
[in]	outDims	is an object of dim4 that has the output array dimensions - used to either truncate or pad the input signals

Returns: the transformed array

AFAPI array af::idft	(	const array &	in,
		const dim4	outDims
	)

C++ Interface for inverse fast fourier transform on any(1d, 2d, 3d) dimensional signals.

This version of fft function uses a default norm_factor parameter that is calculated internally based on the input signals.

Parameters

[in]	in	is the input array
[in]	outDims	is an object of dim4 that has the output array dimensions - used to either truncate or pad the input signals

Returns: the transformed array

AFAPI array af::idft ( const array & in )

C++ Interface for inverse fast fourier transform on any(1d, 2d, 3d) dimensional signals.

This version of fft function uses a default norm_factor parameter that is calculated internally based on the input signals.

Parameters

[in] in is the input array

Returns: the transformed array

Functions

Detailed Description

Function Documentation