I have access to a 12 core machine and some matlab code that relies heavily on fftn. I would like to speed up my code.
Since the fft can be parallelized I would think that more cores would help but I'm seeing the opposite.
Here's an example:
X = peaks(1028); ncores = feature('numcores'); ntrials = 20; mtx_power_times = zeros(ncores,ntrials); fft_times = zeros(ncores, ntrials); for i=1:ncores for j=1:ntrials maxNumCompThreads(i); tic; X^2; mtx_power_times(i,j) = toc; tic fftn(X); fft_times(i,j) = toc; end end subplot(1,2,1); plot(mtx_power_times,'x-') title('mtx power time vs number of cores'); subplot(1,2,2); plot(fft_times,'x-'); title('fftn time vs num of cores');
Which gives me this:
The speedup for matrix multiplication is great but it looks like my ffts go almost 3x slower when I use all my cores. What's going on?
For reference my version is 126.96.36.1995 (R2011a)
Edit: On large 2D arrays taking 1D transforms I get the same problem:
Edit: The problem appears to be that fftw is not seeing the thread limiting that maxNumCompThreads enforces. I'm getting all the cpus going full speed no matter what I set maxNumCompThreads at.
So... is there a way I can specify how many processors I want to use for an fft in Matlab?
Edit: Looks like I can't do this without some careful work in .mex files. http://www.mathworks.com/matlabcentral/answers/35088-how-to-control-number-of-threads-in-fft has an answer. It would be nice if someone has an easy fix...