Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
However, this page did not exist in the previous stable version.
fftw
Fast fourier transform based on the fftw library
Calling Sequence
[y]=fftw(x) [y]=fftw(x,sign) [y]=fftw(x,sign,dim,incr) [y]=fftw(x,sign,[dim1 dim2 ...dimN],[incr1 incr2 ...incrN])
Arguments
- y,x
matrix/vector of real/complex data. Input/output data to be transformed.
- sign
Integer. 1 or -1. Set direct or inverse transform.
- dim
integer. Set the dimension (the length) of the transform.
- incr
integer. Set the stride (the span) of the transform.
Description
This function realizes direct/inverse Discrete Fourier Transform (DFT) with the help of the FFTW library.
One can compute vector, 2D, M-D transform with this function.
For more details of fftw syntax see fft scilab function.
For more details about FFTW library see FFTW Web site : http://www.fftw.org
Remark: fftw function automatically stores his last parameters in memory to re-use it in a second time.
This improves greatly the time computation when consecutives calls (with same parameters) are performed.
Examples
//simple vector direct transform a = rand(50,1)+%i*rand(50,1); y = fftw(a); y = fftw(a,-1); //inverse transform b = fftw(y,1); //2D transform a = rand(512,512)+%i*rand(512,512); y = fftw(a); //M-D transform -old calling sequence- a = rand(120,1); y = a; dim=[5 6 4];incr=[1 5 30]; for i=1:3 y = fftw(y,-1,dim(i),incr(i)); end //M-D transform -new calling sequence- //More efficient than old y = fftw(a,-1,[5 6 4],[1 5 30]); b = fftw(y,1,[5 6 4],[1 5 30]);
See Also
- fftw_flags — set computation method of fast fourier transform of the fftw function
- get_fftw_wisdom — return fftw wisdom
- set_fftw_wisdom — set fftw wisdom
- fftw_forget_wisdom — Reset fftw wisdom
Bibliography
Matteo Frigo and Steven G. Johnson, "FFTW Manual fo version 3.1.2" June 2006. Available : http://www.fftw.org
<< FFTW | FFTW | fftw_flags >> |