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I am using Matlab R2011a and according to the documentation the bsxfun function is multithreaded since R2009a (http://www.mathworks.com/help/techdoc/rn/br5k34y-1.html). However when I use bsxfun to compare a matrix against an upper and lower bound like this:

for k=1:szS
   matchID = all([bsxfun(@lt,matT,matSub(k,:)) bsxfun(@gt,matT,matSlb(k,:))],2);

on the task manager I see than only one core of is engaged. Am I missing out something or is this normal?

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AFAIK the Task Manager only show processes not threads.. Also you should know that multithreading only kicks in when the data is large enough –  Amro Jun 6 '12 at 13:13
On another note, could you explain the variables in your code, and give us a minimum working example. Perhaps we can improve on it –  Amro Jun 6 '12 at 13:19
On my 4-core 8-thread machine, when I do parfor I get a CPU Usage of (Nw/8) where Nw is the number of workers in put in my pool. But when I do bsxfun i get a solid %25. The target matrix (matT) has a dimension of (300K,3) which should be large enough I guess. –  zamazalotta Jun 6 '12 at 13:23
those are not the same thing: matlabpool opens new sessions of MATLAB in the back, each in a separate process. And when you use parfor it distributes the load on all workers. bsxfun on the other hand executes the function in parallel (if it chooses to do so!) by launching lightweight threads inside the same process –  Amro Jun 6 '12 at 13:30
Hmm, so does that mean that I would be better of if I switch to a 2-core/4-thread computer which has a higher CPU frequency? –  zamazalotta Jun 6 '12 at 13:37

1 Answer 1

bsxfun executes the passed function in parallel by launching threads inside the same MATLAB process. Using only the "Task Manager" in Windows, you can't see the threads in execution, only running processes.

Just keep in mind that for the supported multithreaded functions, the speed up only applies if the data was large enough (but you are certainly above that threshold in you example).

Another option is with the Parallel Computing Toolbox. Using the matlabpool function, you can open new sessions of MATLAB in the back, each in a separate process. And when you call parfor it distributes the load on all workers. This approach scales very well especially when you run it on a cluster of computers.

I think it should be possible to use both in the same code..

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