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since I don't want to do it on my own, I am searching for a good FFT implementation for java. First I used this one here FFT Princeton but it uses objects and my profiler told me, that its not really fast due to this fact. So I googled again and found this one: FFT Columbia which is faster. Maybe one of you guys know another FFT implementation? I'd like to have the "best" one because my app has to process a huge amount of sound data, and users don't like waiting... ;-)


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5 Answers 5

up vote 18 down vote accepted

FFTW is the 'fastest fourier transform in the west', and has some Java wrappers:


Hope that helps!

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looks interesting, I will check it out later on. :) –  InsertNickHere Jul 20 '10 at 6:48
I have accepted your answer even though I don't use it, but many pepole refer to this lib. –  InsertNickHere Jul 23 '10 at 13:49
Note that FFTW is covered under the GPL license. (nonfree version available with less restrictive license) –  Jason S Dec 8 '10 at 14:36
How about apache-commons' FastFourierTransformer class? –  kamaci May 14 '11 at 10:07

Late to the party - here as a pure java solution for those when JNI is not an option.JTransforms

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JTransforms doesn't have as nice API as Apache Commons FastFourierTransformer but is much faster. –  Bohumir Zamecnik May 11 '13 at 20:57

I wrote a function for the FFT in Java: http://www.wikijava.org/wiki/The_Fast_Fourier_Transform_in_Java_%28part_1%29

It's in the Public Domain so you can use those functions everywhere (personal or business projects too). Just cite me in the credits and send me just a link of your work, and you're ok.

It is completely reliable. I've checked its output against the Mathematica's FFT and they were always correct until the 15th decimal digit. I think it's a very good FFT implementation for Java. I wrote it on the J2SE 1.6 version, and tested it on the J2SE 1.5-1.6 version.

If you count the number of instruction (it's a lot much simpler than a perfect computational complexity function estimation) you can clearly see that this version is great even if it's not optimized at all. I'm planning to publish the optimized version if there are enough requests.

Let me know if it was useful, and tell me any comment you like.

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Can you please state the license on the webpage? Also, please state how you want to be cited. –  stackoverflowuser2010 Dec 13 '12 at 18:30
Hi @stackoverflowuser2010, the license is at wikijava.org/wiki/WikiJava:GFDL so just link to the code, and write my name (Orlando Selenu) :) What's your project? –  alcor Dec 14 '12 at 10:32
Thanks. Working on Android and need an FFT implementation. –  stackoverflowuser2010 Dec 15 '12 at 3:25
Out of curiosity, have you implemented the optimized version already? –  ravemir Apr 2 '13 at 9:52
Hi ravemir, yes actually. It's optimized for some small input lengths (8 and 32), but you could easily extend it. I'll post it asap in wikijava. –  alcor Apr 5 '13 at 15:51

I guess it depends on what you are processing. If you are calculating the FFT over a large duration you might find that it does take a while depending on how many frequency points you are wanting. However, in most cases for audio it is considered non-stationary (that is the signals mean and variance changes to much over time), so taking one large FFT (Periodogram PSD estimate) is not an accurate representation. Alternatively you could use Short-time Fourier transform, whereby you break the signal up into smaller frames and calculate the FFT. The frame size varies depending on how quickly the statistics change, for speech it is usually 20-40ms, for music I assume it is slightly higher.

This method is good if you are sampling from the microphone, because it allows you to buffer each frame at a time, calculate the fft and give what the user feels is "real time" interaction. Because 20ms is quick, because we can't really perceive a time difference that small.

I developed a small bench mark to test the difference between FFTW and KissFFT c-libraries on a speech signal. Yes FFTW is highly optimised, but when you are taking only short-frames, updating the data for the user, and using only a small fft size, they are both very similar. Here is an example on how to implement the KissFFT libraries in Android using LibGdx by badlogic games. I implemented this library using overlapping frames in an Android App I developed a few months ago called Speech Enhancement for Android.

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I'm looking in to using SSTJ for FFTs in Java. It can redirect via JNI to FFTW if the library is available or will use a pure Java implementation if not.

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SSTJ link out of date... you mean the Shared Scientific Toolbox in Java, now hosted on carsomyr.github.io –  Jason S Sep 21 '14 at 17:55

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