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I have to run jobs on a regular basis on compute servers that I share with others in the department and when I start 10 jobs, I really would like it to just take 10 cores and not more; I don't care if it takes a bit longer with a single core per run: I just don't want it to encroach on the others' territory, which would require me to renice the jobs and so on. I just want to have 10 solid cores and that's all.

I am using Enthought 7.3-1 on Redhat, which is based on Python 2.7.3 and numpy 1.6.1, but the question is more general.

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  • 3
    I'm pretty sure that numpy doesn't do any multithreading, there is nothing to switch off. Commented Jun 11, 2013 at 20:57
  • 2
    set cpu affinity for the processes Commented Jun 11, 2013 at 20:59
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    @WinstonEwert: incorrect. Try np.dot with large matrix on multicore cpu. The libraries that it uses may utilize more than one cpu Commented Jun 11, 2013 at 20:59
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    Thanks a lot. Now that I know what to search for, I found this other page that seems to answer my question: stackoverflow.com/questions/1575067/… Commented Jun 11, 2013 at 21:14

5 Answers 5

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Only hopefully this fixes all scenarios and system you may be on.

  1. Use numpy.__config__.show() to see if you are using OpenBLAS or MKL

From this point on there are a few ways you can do this.

2.1. The terminal route export OPENBLAS_NUM_THREADS=1 or export MKL_NUM_THREADS=1

2.2 (This is my preferred way) In your python script import os and add the line os.environ['OPENBLAS_NUM_THREADS'] = '1' or os.environ['MKL_NUM_THREADS'] = '1'.

NOTE when setting os.environ[VAR] the number of threads must be a string! Also, you may need to set this environment variable before importing numpy/scipy.

There are probably other options besides openBLAS or MKL but step 1 will help you figure that out.

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2 Comments

Amazing. When trying to parallelize a batch of fftpack+odeint simulations with multiprocessing.Pool, this gave me an up to 600x speedup! Yet, the speedup was in effect even before I came to the multiprocessing parts of my notebook. Something about thos OpenBLAS threads was apparently blocking proper vectorization.
Another amazing thing was that the utilization reported by htop was actually lower after the change, so it really seems like some different code path must be used; perhaps something that makes better use of my Xeon E5-1660v4's vector extensions.
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Set the MKL_NUM_THREADS environment variable to 1. As you might have guessed, this environment variable controls the behavior of the Math Kernel Library which is included as part of Enthought's numpy build.

I just do this in my startup file, .bash_profile, with export MKL_NUM_THREADS=1. You should also be able to do it from inside your script to have it be process specific.

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Thanks. That makes life a lot easier than tasksetting each process.
I've tried to make a brief summary of things to set in a GitHub Gist: gist.github.com/EricCousineau-TRI/…
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In case you want to set the number of threads dynamically, and not globally via an environment variable, you can also do:

import mkl
mkl.set_num_threads(2)
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2 Comments

what about linux/OpenBLAS?
@JoeyGao See threadpoolctl, which can do this for a variety of BLAS implementations.
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In more recent versions of numpy I have found it necessary to also set NUMEXPR_NUM_THREADS=1.

In my hands, this is sufficient without setting MKL_NUM_THREADS=1, but under some circumstances you may need to set both.

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Fwiw, I needed to set OMP_NUM_THREADS (cf stackoverflow.com/a/31622299/1666398)
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For me, the solution was simple as I stopped using numpy.dot:

import numpy as np

a = np.random.rand(1e6)
b = np.random.rand(1e6, 10)

# potentially uses multiple threads
dotted = np.dot(a, b)

# single-thread
summed = np.sum(a[:, np.newaxis] * b, axis=0)

assert np.all(dotted == summed)
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