In order to simplify convolution, I need calls twice FFT (+ 1, 1)
Serial FFT code has been completed. Now I plan to use FFTW and `MPI`

for optimal design
can you help me change it with FORTRAN code? or give me some tips about using FFTW and MPI?

my Serial FFT code:

```
subroutine fft_for_covl(x,y,ss,isn)
use MKL_DFTI
integer,dimension(3)::ss
real,dimension(snLx,snLy,-1:snLz+1)::x
real,dimension(snLx,snLy,snLz)::y
complex,allocatable,dimension(:)::fft_c
real,allocatable,dimension(:)::x_all,y_all
type (DFTI_DESCRIPTOR),POINTER:: myfft
integer ::status,nsloc
n1=ss(1)
n2=ss(2)
n3=ss(3)
tol=n1*n2*n3
nsloc=tol/nprocs
!comm gather
if(myid==0)allocate(x_all(tol),y_all(tol),STAT=istat)
call MPI_GATHER(x(:,:,1:snLz),nsloc,MPI_DOUBLE_PRECISION, &
& x_all,nsloc,MPI_DOUBLE_PRECISION,0,MPI_COMM_WORLD,status,ierr)
call MPI_GATHER(y,nsloc,MPI_DOUBLE_PRECISION, &
& y_all,nsloc,MPI_DOUBLE_PRECISION,0,MPI_COMM_WORLD,status,ierr)
if(myid==0)then
allocate (fft_c(n1*n2*n3),STAT=istat)
fft3(1:ns)=cmplx(x_all(1:tol),y_all(1:ns))
status=DftiCreateDescriptor(my_fft,DFTI_double,DFTI_complex,3,nn)
status=DftiCommitDescriptor(myfft)
if(isn==1) then
status=DftiComputeForward(myfft,fft_c)
else if(isn==-1) then
status=DftiComputeBackward(myfft,fft_c)
endif
status=DftiFreeDescriptor(myfft)
x_all(1:tol)=real(fft_c(1:tol))
y_all(1:tol)=imag(fft_c(1:tol))
deallocate (fft_c,STAT=istat)
endif
!comm scatter
call MPI_SCATTER(x_all,nsloc,MPI_DOUBLE_PRECISION, &
& x(:,:,1:snLz),nsloc,MPI_DOUBLE_PRECISION,0,MPI_COMM_WORLD,status,ierr)
call MPI_SCATTER(y_all,nsloc,MPI_DOUBLE_PRECISION, &
& y,nsloc,MPI_DOUBLE_PRECISION,0,MPI_COMM_WORLD,status,ierr)
if(myid==0) deallocate(x_all,y_all,STAT=istat)
return
end subroutine fft_for_covl
```

**for example:**
subroutine fft_for_covl(x,y,ss,isn)
……
end subroutine fft_for_covl