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At my workplace there is a shared powerful 24-core server on which we run our jobs. To utilize full power of the multi-core CPU I wrote a multi-threaded version of a long-running program such that 24 threads are run on each core simultaneously (via threading library in Jython).

The program runs speedily if there are no other jobs running. However, I was running a big job simultaneously on one core and as a result the thread running on that particular core took long amount of time, slowing down the entire program (as threads needed to join the data at the end). However the threads on other CPUs had long finished execution - so I basically had 23 cores idle and 1 core running the thread and the heavy job, or at least this is what my diagnosis is. This was further confirmed by looking at output of time command, sys time was very low compared to user time (which means there was lot of waiting).

Does operating system (Linux in this case) not switch jobs to different CPUs if one CPU is loaded while others are idle? If not, can I do that in my program (in Jython). It should not be difficult to query different CPU loads once in a while and then switch to one that is relatively free.


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This is not a programming question – user2618501 Sep 19 '13 at 18:10
Do you mean Jython? – kindall Sep 19 '13 at 18:11
@user2618501: It is, because I want to know if it is possible to do CPU switching in Python, particularly Jython. – abhinavkulkarni Sep 19 '13 at 18:11
@kindall: Yes, edited. Thanks. – abhinavkulkarni Sep 19 '13 at 18:12
Jython has no GIL. It uses the threading capabilities of the JVM. See… – Martijn Pieters Sep 19 '13 at 18:30


To maintain a balanced workload across CPUs, work can be redistributed, taking work from an overloaded CPU and giving it to an underloaded one. The Linux 2.6 scheduler provides this functionality by using load balancing. Every 200ms, a processor checks to see whether the CPU loads are unbalanced; if they are, the processor performs a cross-CPU balancing of tasks.

A negative aspect of this process is that the new CPU's cache is cold for a migrated task (needing to pull its data into the cache).

Looks like Linux has been balancing threads across cores for a while now.

However, assuming Linux load balances instantly (which it doesn't), your problem still reduces to one where you have 23 cores and 24 tasks. In the worst case (where all tasks take equally long), this takes twice as long as having only 23 tasks because, if they all take equally long to complete, then the last task still has to wait for another task to run to completion before there is a free core.

If the wall-clock time of the program suffers by a slowdown of around 2x, this is probably the issue.

If it is drastically worse than 2x, then you may be on an older version of the Linux scheduler.

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