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I have some code that is heavily using np.fft.rfft and np.fft.irfft, such that this is the bottleneck for optimisation.

Is there any chance of going faster than this, and if so what are my best options. Thoughts that occur to me would be:

  • Cython - heard this is very fast; but would it help here though?
  • digging into numpy - rfft calls _raw_fft which does lots of checking then calls fftpack.cfftf. Profiler is telling me only 80% of the time is in fftpack.cfftf, stripping down the wrapping to the only bits I need could save a little time.
  • find a faster DFT algorithm somewhere?
  • buy more computers

So really the question boils down to:

  1. Does anyone with Cython experience know if it would be worth trying here - or can it not make numpy any faster.
  2. Are there any faster packages out there? How much faster is possible?
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marked as duplicate by Corone, tcaswell, falsetru, morgano, liyakat Sep 1 '13 at 15:06

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I found a partial answer in another question and put it below - but if people think this question should be closed/deleted I won't be offended. (I left it since one person has upvoted the question, I'll leave it to others to decide it this is a helpful question) –  Corone Aug 30 '13 at 15:36
Given the duplicate I'll delete this question tomorrow if no-one says anything interesting etc. –  Corone Aug 30 '13 at 15:42
Do you actually need to compute the response for all frequencies? If you're only looking for a few select frequencies, you could significantly increase your speed by writing a custom FFT or even creating a digital filter to resonate at the desired frequencies. –  DrRobotNinja Aug 30 '13 at 18:42
Just to double check you compiled scipy with an optimized BLAS? –  Ophion Aug 30 '13 at 18:50
@corone Ah whoops- compile numpy with an optimized BLAS such as the MKL. A way to test it out is grab python anaconda and try the mkl optimization for a month (free) from here to see what difference it makes easily. Out of curiosity are you / can you parallelize your code? –  Ophion Aug 30 '13 at 21:59

1 Answer 1

up vote 4 down vote accepted

I've found this question/answer which actually answer part of this:

Shows that there is another FFT implementation in scipy that is quite a bit faster, but also that there is a package called FFTW that goes faster still (up to about 3x looking at these benchmarks).

So that just leaves the question of whether Cython would make this go any faster.

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my FFTW wrappers are Cython based :) –  Henry Gomersall Nov 28 '13 at 17:05

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