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SubjectRe: [RFC PATCH RT] rwsem: The return of multi-reader PI rwsems
On Thu, 10 Apr 2014 09:44:30 -0500
Clark Williams <williams@redhat.com> wrote:

> I wrote a program named whack_mmap_sem which creates a large (4GB)
> buffer, then creates 2 x ncpus threads that are affined across all the
> available cpus. These threads then randomly write into the buffer,
> which should cause page faults galore.
>
> I then built the following kernel configs:
>
> vanilla-3.13.15 - no RT patches applied

vanilla-3.*12*.15?

> rt-3.12.15 - PREEMPT_RT patchset
> rt-3.12.15-fixes - PREEMPT_RT + rwsem fixes
> rt-3.12.15-multi - PREEMPT_RT + rwsem fixes + rwsem-multi patch
>
> My test h/w was a Dell R520 with a 6-core Intel(R) Xeon(R) CPU E5-2430
> 0 @ 2.20GHz (hyperthreaded). So whack_mmap_sem created 24 threads
> which all partied in the 4GB address range.
>
> I ran whack_mmap_sem with the argument -w 100000 which means each
> thread does 100k writes to random locations inside the buffer and then
> did five runs per each kernel. At the end of the run whack_mmap_sem
> prints out the time of the run in microseconds.
>
> The means of each group of five test runs are:
>
> vanilla.log: 1210117
> rt.log: 17210953 (14.2 x slower than vanilla)
> rt-fixes.log: 10062027 (8.3 x slower than vanilla)
> rt-multi.log: 3179582 (2.x x slower than vanilla)
>
>
> As expected, vanilla kicked RT's butt when hammering on the
> mmap_sem. But somewhat unexpectedly, your fixups helped quite a bit

That doesn't surprise me too much. As I removed the check for the
nesting, which also shrunk the size of the rwsem itself (removed the
read_depth from the struct). This itself can give a bonus boost.

Now the question is, how much will this affect real use case scenarios?

-- Steve


> and the multi+fixups got RT back into being almost respectable.
>


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