cfft_crfft3d - complex-real 3D FFT

SYNOPSIS

#include <cfft.h>

int cfft_crfft3d(scale, n1, n2, n3, ld1, ld2, data, iopt)

float scale
int n1
int n2
int n3
int ld1
int ld2
float data(ld1,ld2,n3)
int iopt

DESCRIPTION

The function, "cfft_crfft3d", performs a complex-to-real 3D FFT.

INPUT

The parameter, "scale", specified the scale factor to be applied to the data.

The size parameters, "n1", "n2" and "n3", specifies the FFT sizes. These must be setup as mixed radix values (must be even) in order to allow the FFT's to be more efficient. It is recommended to use cfft_nrfft5 to calculate these values.

The leading dimension parameters, "ld1" and "ld2", specify the leading dimensions of the float array.

The float array, "data", is the I/O array for the FFT's. This is performed "in place". The input float data is packed into the real array in a typical half-complex format; it requires the size of data, "ld1" & "ld2", to be at least "n1" + 2 and "n2" + 2; "ld1" & "ld2" are specified in real values.

The parameter, "iopt", is used to specify any other information that is unique to a specific FFT implementation. Currently, the use is for specifying whether to measure or estimate the FFT's when using FFTW routines. The "cfft.h" header defines FFT_MEASURE and FFT_ESTIMATE, besides defining the FFT functions, as integer.

OUTPUT

The fft results are returned in the float data array and the returned value is zero "0" if successful. A value of "-1" is returned if the arguments are invalid. Otherwise, a value unique to each FFT implementation is returned.

AUTHOR

Phuong Vu, HPC
Jerry Ehlers, EPTG