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I am a newbie in fortran, and trying to transform my matlab code efficiently to .f

I am using the fftw3 package and need ffts with strides complex to complex. e.g. 2 dimensions out of 3d array should be transformed.

What I do in matlab is


where u(Nx,Ny,Nz) is 3d matrix.

I can do this in fortran via looping but this is much slower than matlabs ffts as in below;

call dfftw_plan_dft_2d(planf,Nx,Nz,inf,outf,FFTW_FORWARD,FFTW_MEASURE)
do l=1,Nx;
    call dfftw_execute_dft_(planf,f(l,:,:),fh(l,:,:));
end do

fft_many is a solution to my problem where strides can be used, however I couldn't get it to work somehow. Could anyone help?

This link is actually the 'C' help of fftw's advanced complex ffts;

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No idea what the question is. –  scottb May 14 '13 at 12:58
Don't expect the effort you put into translating your code from Matlab into Fortran to deliver a faster program. Do not take this as a judgment on your Fortran skills, rather as an indication that Matlab uses highly-tuned implementations for much of its built-in functionality including FFTs. –  High Performance Mark May 14 '13 at 13:49
using f(1,:,:) as an array argument can be very bad, as it's non-contiguous in memory and will probably result in a contiguous copy of the slice being passed to the subroutine. –  steabert May 14 '13 at 14:34
I changed the periodic boundary conditions of mine from X&Z to X&Y which means with this configuration I needed fft(fft(u,[],2),[],1) for a u(Ny,Nx,Nz)and this gets the job done in such a case; rank = 2; ppp(1) =Ny; ppp(2) =Nx; howmany =Nz odist = ppp(1)*ppp(2); idist = ppp(1)*ppp(2); ostride = 1; istride = 1; inembed(:) = ppp(:); onembed(:) = ppp(:); call dfftw_plan_many_dft(planf,rank,ppp,howmany,inf,inembed,istride,idist,outf, onembed,ostride,odist, FFTW_FORWARD, FFTW_MEASURE); call dfftw_execute_dft(planf,f,fh); –  user2375049 May 16 '13 at 16:18
Actually, MATLAB uses FFTW under the hood, at LEAST since version 12. –  jvriesem May 24 '13 at 19:04

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