Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I need to convolve two one dimensional signals, one has on average 500 points (This one is a Hanning window function), the other 125000. Per run, I need to apply three times the convolution operation. I already have an implementation running based on the documentation of scipy. You can see the code here if you want to (Delphi code ahead):

function Convolve(const signal_1, signal_2 : ExtArray) : ExtArray;
  capital_k : Integer;
  capital_m : Integer;
  smallest : Integer;
  y : ExtArray;
  n : Integer;
  k : Integer;
  lower, upper : Integer;
  capital_k := Length(signal_1) + Length(signal_2) - 1;
  capital_m := Math.Max(Length(signal_1), Length(signal_2));
  smallest := Math.Min(Length(signal_1), Length(signal_2));
  SetLength(y, capital_k);
  for n := 0 to Length(y) - 1 do begin
    y[n] := 0;
    lower := Math.Max(n - capital_m, 0);
    upper := Math.Min(n, capital_k);
    for k := lower to upper do begin
      if (k >= Length(signal_1)) or (n - k >= Length(signal_2)) then
      y[n] := y[n] + signal_1[k] * signal_2[n - k];
  Result := Slice(y,
                  Floor(smallest / 2) - 1,
                  Floor(smallest / 2) - 1 + capital_m);

The problem is, this implementation is too slow. The whole procedure takes about five minutes. I was wondering if I can find a faster way of computing that.

share|improve this question

2 Answers 2

up vote 3 down vote accepted

Fast convolution can be carried out using FFTs. Take the FFT of both input signals (with appropriate zero padding), multiply in the frequency domain, then do an inverse FFT. For large N (typically N > 100) this is faster than the direct method.

share|improve this answer
What is the zero padding that one needs? It it do make the signals a power of two? –  Sambatyon May 18 '11 at 11:54
@Sambatyon: you need zero padding to make the kernel size the same size as the signal (unless you use overlap-add or overlap-save methods) and also you need it to convert circular convolution to linear convolution. –  Paul R May 18 '11 at 12:14
+1, FFT-multiply-IFFT is definitely the way to go. In your case, pad both signals to (at least) 125500 points to avoid circular wrapping effects. Depending on which FFT implementation you use/find, you may need to pad to a power of 2 for speed. –  mtrw May 18 '11 at 20:51
At least 126500 for applying a length 500 convolution kernel 3 times. 128*1024 might be a good power of 2 length. –  hotpaw2 May 19 '11 at 1:10

There are a lot of fast convolution algorithms out there. Most of them use FFT routines such as FFTW. This is because an operation like convolution (in the time domain) reduces to multiplication (of the frequency domain representations) in the frequency domain. A convolution operation that currently takes about 5 minutes (by your own estimates) may take as little as a few seconds once you implement convolution with FFT routines.

Also, if there is a big difference between the length of your filter and the length of your signal, you may also want to consider using Overlap-Save or Overlap-Add. More information here. If coding in Delphi is not an overriding concern, you might want to use C/C++ if only for the reason that FFTW and some other libraries are available in C/C++ (not sure about scipy or Delphi).

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.