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I am about to write some computationally-intensive Python code that'll almost certainly spend most of its time inside numpy's linear algebra functions.

The problem at hand is embarrassingly parallel. Long story short, the easiest way for me to take advantage of that would be by using multiple threads. The main barrier is almost certainly going to be the Global Interpreter Lock (GIL).

To help design this, it would be useful to have a mental model for which numpy operations can be expected to release the GIL for their duration. To this end, I'd appreciate any rules of thumb, dos and don'ts, pointers etc.

In case it matters, I'm using 64-bit Python 2.7.1 on Linux, with numpy 1.5.1 and scipy 0.9.0rc2, built with Intel MKL 10.3.1.

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Have you considered using the multiprocessing lib instead of thread ? You wouldn't have to bother about GIL anymore. – Jeannot Jun 1 '11 at 11:45
@Jeannot: I have, thanks. Due to the nature of the problem, threading is my first choice. If I can't make it work, I'll look at the alternatives. – NPE Jun 1 '11 at 11:51

2 Answers 2

up vote 8 down vote accepted

You will probably find answers to all your questions regarding NumPy and parallel programming on the official wiki.

Also, have a look at this recipe page -- it contains example code on how to use NumPy with multiple threads.

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I had a look at the wiki page, and there is absolutely no information about which numpy functions do and do not release the GIL. – DanielSank Jun 4 '14 at 1:46

Embarrassingly parallel? Numpy? Sounds like a good candidate for PyCUDA or PyOpenCL.

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Doesn't sound like this is a good GPU problem since each thread will be doing linear algebra. There are GPU linear algebra packages though. A friend of mine has recently complied scipy using ACML-GPU's version of LAPACK. – kiyo Jun 2 '11 at 15:54

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