chooseproc cpu affinity question

Matthew Dillon dillon at apollo.backplane.com
Wed Jan 14 13:57:42 PST 2004


:Hi !
:
:>     Yes, the check for only the next one is intended.  Putting a iterative
:>     loop in the middle of the process selection code's critical path is
:>     not very condusive to performance.
:Well, but with n CPUs your chance is 1/n you hit one.
:And the expected length k of the loop is << runqcount.
:How expensive is an IPI plus cache invalidation plus cache misses
:compared to k times this loop ?
:I don't know and I don't want to step on anyones toes.
:I just think it's worth a thought.
:Maybe trying min(n, runqcount) times or so would do the job...
:
:Cheers
:Peter
:
:-- 
:<peter.kadau at xxxxxxxxxxxxxxxx>

    Well, there are a lot of factors here, such as the timing of the
    scheduling event and which cpu's scheduler checks the run queue 
    first.  Affinity usually runs into the most trouble with
    programs which block for short periods of time, such as when doing 
    read I/O, which a scheduling runq check (of any type) would not do 
    a very good job of detecting.  The single-node lookahead chance does
    far better then 1/n because while you have more cpus to play with,
    you also have fewer processes on the runq (and more already running on
    a particular cpu), and you have timing effects that work in your favor.

    For example, take a look at setrunqueue() in kern_switch.c.  setrunqueue()
    is responsible not only for entering the process onto the run queue, but
    also for waking up the 'best' cpu for the scheduling of that process.
    This is where the meat of DFly's affinity actually happens... it wakes
    up the cpu that ran the process before in order to give that cpu a 
    chance to schedule the newly runnable process before other cpus.  It 
    does not, however, prevent other cpus from scheduling the newly
    runnable process.  You wind up with a weighted statistical effect that
    should, in most cases, schedule the process on a cpu with affinity to
    that process but which does not prevent the process from being scheduled
    by some other cpu if the target cpu is too busy with other processes.

    In short, there are a lot of factors involved and some real life 
    statistical testing would need to be done to find the right algorithms
    to schedule the processes optimally.  It isn't a good idea to spend a lot
    of cpu time on just one tiny aspect of the problem and, in fact, doing
    so can introduce some pretty aweful degenerate situations.  

    For example, in a very heavily loaded system there might be hundreds of
    processes on the run queues.  The last thing you want to do is cause an
    iterative loop to be executed every time one has a wakeup() event.  That
    could easily lead to billions of wasted cpu cycles.

					-Matt
					Matthew Dillon 
					<dillon at xxxxxxxxxxxxx>





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