Is the later just a synonym of the former, or are they two different implementations of FFT? Which one is better?

Interesting question. The docs don't say much. I just found this quote in context of explaining import strategies: "Lets consider the case where you (for whatever reason) want to compare numpy's and scipy's fft functions." (see end of this site). Well, "... for whatever reason ..." – Oben Sonne Jun 15 '11 at 19:48

@ObenSonne That page has been updated but the content you mentioned can still be found here. – karlphillip May 10 at 15:35
SciPy does more:
 http://docs.scipy.org/doc/numpy/reference/routines.fft.html
 http://docs.scipy.org/doc/scipy/reference/fftpack.html#
In addition, SciPy exports some of the NumPy features through its own interface, for example if you execute scipy.fftpack.helper.fftfreq and numpy.fft.helper.fftfreq you're actually running the same code.
However, SciPy has its own implementations of much functionality. The source has performance benchmarks that compare the original NumPy and new SciPy versions. My archaic laptop shows something like this:
Fast Fourier Transform
=================================================
 real input  complex input

size  scipy  numpy  scipy  numpy

100  0.07  0.06  0.06  0.07 (secs for 7000 calls)
1000  0.06  0.09  0.09  0.09 (secs for 2000 calls)
256  0.11  0.11  0.12  0.11 (secs for 10000 calls)
512  0.16  0.21  0.20  0.21 (secs for 10000 calls)
1024  0.03  0.04  0.04  0.04 (secs for 1000 calls)
2048  0.05  0.09  0.08  0.08 (secs for 1000 calls)
4096  0.05  0.08  0.07  0.09 (secs for 500 calls)
8192  0.10  0.20  0.19  0.21 (secs for 500 calls)
It does seem that SciPy runs significantly faster as the array increases in size, though these are just contrived examples and it would be worth experimenting with both for your particular project.
It's worth checking out the source code http://www.scipy.org/Download#head312ad78cdf85a9ca6fa17a266752069d23f785d1 . Yes those .f files really are Fortran! :D

1

2scipy's fft checks if your data type is real, and uses the twiceefficient rfft if so. numpy's fft does not. – endolith Aug 22 '13 at 14:47

2scipy returns the data in a really unhelpful format  alternating real and imaginary parts after the first element. Once you've split this apart, cast to complex, done your calculation, and then cast it all back, you lose a lot (but not all) of that speed up. Basically it is not a fair comparison  numpy's time include making the output usable, not just doing the fft. – Korone Aug 31 '13 at 11:06

2Also, check out hgomersall.github.io/pyFFTW/pyfftw/interfaces/interfaces.html It's a nice wrapper for fftw that works as a dropin replacement for numpy.fft or scipy.fftpack. – nick maxwell Sep 13 '13 at 0:23

You can use dtype tricks to
view
the "alternating" array as array of complex numbers (except for the first element I believe) @Corone – ZisIsNotZis Oct 30 '18 at 3:00
I found that numpy's 2D fft was significantly faster than scipy's, but FFTW was faster than both (using the PyFFTW bindings). Performance tests are here: code.google.com/p/agpy/source/browse/trunk/tests/test_ffts.py
And the results (for n
x n
arrays):
n sp np fftw
8: 0.010189 0.005077 0.028378
16: 0.010795 0.008069 0.028716
32: 0.014351 0.008566 0.031076
64: 0.028796 0.019308 0.036931
128: 0.093085 0.074986 0.088365
256: 0.459137 0.317680 0.170934
512: 2.652487 1.811646 0.571402
1024: 10.722885 7.796856 3.509452

1As a sidenote, I think the speed will depend strongly on what supporting packages you've compiled for numpy/scipy, e.g. if you've compiled BLAS/LAPACK and with which compiler and compiler flags. But I don't know which compilers/flags are faster =( – keflavich Feb 8 '13 at 5:44
Looking at the github respositories for each, scipy is not just importing numpy's version and renaming it (although it does borrow some functionality). You'll have to dig into the code if you want to discern the difference in implementations since the documentation doesn't make a direct comparison.

Numpy uses a C porting of the FFTPACK Fortran programs, while Scipy uses the original Fortran version. – divenex Apr 13 '17 at 11:53