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I'm passing some simple IDL code to Python. However the returned FFT values form the SciPy/NumPy packages is different than the IDL one and I can't find out why.

Reducing it all to a simple example of 8 elements I found that the SciPy/NumPy routines return values that are 8 (2^3) times bigger than the IDL ones (a normalization problem I thought).

Here is the example code (copied from here) in both languages:

IDL

signal = ([-2., 8., -6., 4., 1., 0., 3., 5.])
fourier = fft(signal)
print, fourier

returns

( 1.62500, 0.00000) ( 0.420495, 0.506282) ( 0.250000, 0.125000) ( -1.17050, -1.74372) ( -2.62500, -0.00000) ( -1.17050, 1.74372) ( 0.250000, -0.125000) ( 0.420495, -0.506282)

Python

from scipy.fftpack import fft
import numpy as N
…
signal = N.array([-2., 8., -6., 4., 1., 0., 3., 5.])
fourier = fft(signal)
print fourier

returns

[ 13. +0.j , 3.36396103 +4.05025253j, 2. +1.j , -9.36396103-13.94974747j, -21. +0.j , -9.36396103+13.94974747j, 2. -1.j , 3.36396103 -4.05025253j]

I did it with the NumPy package and I got the same results. I tried also print fft(signal, 8 ) just in case but it returned the same, as expected.

However that's not all, coming back to my real array of 256 elements I found that the difference was no longer 8 or 256, but 256*8! it's just insane.

Although I worked around the problem I NEED to know why there is that difference.

Solved: It was just the normalization, at some point I divided the IDL 256 array by a factor of 8 that I forgot to remove. In Dougal's answer there is the documentation that I missed.

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1 Answer 1

up vote 7 down vote accepted

IDL and numpy use slightly different definitions of the DFT. Numpy's is (from the documentation):

while IDL's is (from here):

Numpy's m is the same as IDL's x, k is u, n is N. I think a_m and f(x) are the same thing as well. So the factor of 1/N is the obvious difference, explaining the difference of 8 in your 8-elt case.

I'm not sure about the 256*8 one for the 256-elt case; could you maybe post the original array and both outputs somewhere? (Does this happen for all 256-elt arrays? What about other sizes? I don't have IDL....)

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Sorry, i got to the fft links on the top and i did not scrooll down to the documentation in scipy case... Anyway i tried with longer and shorter arrays and the normalization seems to be the problem, but the 256 long vector that i'm using is still wrong by the 8 factor. I do that print len(matflux[i,:]), fft(matflux[i,:] where the len is 256 –  fffff Apr 24 '12 at 17:19

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