Possible Duplicate:
how to set CPU affinity of a particular pthread?

Is there a way in Linux to disable one core for all processes except one process? I would like to have one core reserved only and only for my process.

Expected behavior is as follows:

  1. Processes which will be spawned after my process, should not see this core and use the others.
  2. When my process is spawned, all processes which are utilizing this core, should be switched to other cores.
  • 1
    the term you're looking for is thread affinity. It's possible, but often worse in terms of overall performance than letting the scheduler figure it out.
    – Flexo
    Jan 30 '12 at 22:57
  • 6
    @awoodland: Backwards. He didn't ask for his process to not use other cores, he asked for other processes to not use his core.
    – Ben Voigt
    Jan 30 '12 at 23:02
  • 18
    In my opinion it is not duplicate of "how to set CPU affinity of a particular pthread?". Answer for my question is completely different. See answer of gby below. Jan 31 '12 at 20:48
  • 5
    I second that this is not a duplicate, the answer to the question linked is entirely unhelpful, and below answer is not only much better, it also addresses the actual question.
    – Cookie
    Sep 1 '14 at 10:23
  • 4
    This question is not a duplicate of anything already asked on SO, the linked question is completely irrelevant. I am wondering if people who decided to close it even bothered reading it and comparing to what they linked to.
    – Petr
    Aug 26 '16 at 9:52

Yes, there is. You want to create two cpusets, one with your isolated CPU and the other with all the rest of the CPUs. Assign your special process to the isolated cpuset and all the rest of the processes to the other cpuset.

Here is a simple example script that will do it:

mkdir /cpuset 
mount -t cpuset none /cpuset/
cd /cpuset

mkdir sys                                   # create sub-cpuset for system processes
/bin/echo 0-2 > sys/cpuset.cpus             # assign cpus (cores) 0-2 to this set
                                            # adjust if you have more/less cores
/bin/echo 1 > sys/cpuset.cpu_exclusive
/bin/echo 0 > sys/cpuset.mems     

mkdir rt                                    # create sub-cpuset for my process
/bin/echo 3 > rt/cpuset.cpus                # assign cpu (core) 3 to this cpuset
                                            # adjust this to number of cores-1
/bin/echo 1 > rt/cpuset.cpu_exclusive
/bin/echo 0 > rt/cpuset.mems
/bin/echo 0 > rt/cpuset.sched_load_balance
/bin/echo 1 > rt/cpuset.mem_hardwall

# move all processes from the default cpuset to the sys-cpuset
for T in `cat tasks`; do echo "Moving " $T; /bin/echo $T > sys/tasks; done

Now start your process and find out its PID and go:

/bin/echo $PID > /cpuset/rt/tasks

If you want to revert these changes, just restart your system or do:

# move tasks back from sys-cpuset to root cpuset
for T in `cat /cpuset/sys/tasks`; do echo "Moving " $T; /bin/echo $T > /cpuset/tasks; done
# remove sys-cpuset
rmdir /cpuset/sys
# move tasks back from rt-cpuset to root cpuset
for T in `cat /cpuset/rt/tasks`; do echo "Moving " $T; /bin/echo $T > /cpuset/tasks; done
# remove rt-cpuset
rmdir /cpuset/rt
# unmount and remove /cpuset
umount /cpuset
rmdir /cpuset

Here is the man page: http://www.kernel.org/doc/man-pages/online/pages/man7/cpuset.7.html

There are also more complicated shell wrappers that can help you automate this, such as cset. See: http://web.archive.org/web/20120428093126/http://www.suse.com/documentation/slerte_11/slerte_tutorial/data/slerte_tutorial.html

  • 1
    Thank you for such detailed description:) I'll try your solution. Jan 31 '12 at 12:29
  • And if I want to undo these changes, how can I do that? Dec 15 '13 at 16:51
  • 1
    The link to the SUSE tutorial is dead, here's an archived version. cset shield fits my needs perfectly.
    – sjakobi
    Feb 21 '17 at 3:14
  • @Kornel Szymkiewicz I find this solution does work for threads created by kernel under Ubuntu.Is there any solution? May 21 '20 at 11:59

You can have a look at this lwn article for a discussion of kernel solution to this problem.

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