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What is the difference between the 'conv' and 'fftfilt' functions in MATLAB?

I read that conv is done in time-domain, while fftfilt first does FFT using the overlap-add method before doing the multiplication in frequency-domain. However, I'm not sure how these different approaches will affect the results (as I thought that convolution in the time-domain is the same as multiplication in the frequency domain), and when I should use one over the other?

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  • Convolution in one domain is indeed equivalent to multiplication in the other domain. However, with discrete time, finite length signals, it's circular convolution. See en.wikipedia.org/wiki/Convolution#Discrete_convolution, en.wikipedia.org/wiki/Overlap-add, and stackoverflow.com/questions/2929401/… for more on the theory. fftfilt and conv should give equivalent results, use fftfilt if it will be faster.
    – mtrw
    Oct 14, 2011 at 5:43
  • Also, you might be interested in dsp.stackexchange.com.
    – mtrw
    Oct 14, 2011 at 6:00
  • @mtrw: thanks for your comments and the links - they helped to clear up the confusion I had with the different implementations. I also noticed that conv gave a result that had length M+L-1, where M is the length of the impulse response and L is the length of the input signal. fftfilt, on the other hand, gave a result that was of the same length as the input signal. I guess this is related to fftfilt's processing and truncation of the segments of the input signal with the overlap add method.
    – wave
    Oct 14, 2011 at 13:50
  • That's interesting that fftfilt gives an output that's missing samples. In principle, there's no reason that overlap-save or overlap-add can't give exactly the same length output, but the implementation has to add one extra buffer of zeros at one of the input, then trim it appropriately on output. Looks like Mathwork's implementation is a bit sloppy in this regard.
    – mtrw
    Oct 14, 2011 at 23:38
  • The response of the filter in future (values L+1, L+2...) depend on future inputs and you don't know them so MATLAB is technically correct here and most applications you don't need the extra outputs. If you do then you really need convolution.
    – kon psych
    Nov 15, 2015 at 7:39

1 Answer 1

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The transformation from time-domain to frequency-domain has its own computational price. Although the result should be the same the timing can be different depending on input length. You can find the following post useful. For more in depth analysis you could read about FFT/Convolution in time and frequency domain.

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  • In general, you only have to transform the shorter signal once. Suppose the short signal is N long, and the long one is M long. Naive convolution will take N*M operations. Overlap-save will take 2*N*log(2*N)*(M/(2*N)+1) ~= M*log(2*N) operations. If N=M=10, then the 100 ops of convolution is better. If N=100, M=10000, then the ~80000 ops of overlap-save is better, if the implementations are equivalent. It's a shame that Mathworks decided to implement fftfilt as an m file.
    – mtrw
    Oct 14, 2011 at 5:59

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