[PATCH V4 0/2] mm: FAULT_AROUND_ORDER patchset performance data for powerpc

Rusty Russell rusty at rustcorp.com.au
Tue May 20 11:14:06 EST 2014


Hugh Dickins <hughd at google.com> writes:
> On Mon, 19 May 2014, Madhavan Srinivasan wrote:
>> On Monday 19 May 2014 05:42 AM, Rusty Russell wrote:
>> > Hugh Dickins <hughd at google.com> writes:
>> >> On Thu, 15 May 2014, Madhavan Srinivasan wrote:
>> >>>
>> >>> Hi Ingo,
>> >>>
>> >>> 	Do you have any comments for the latest version of the patchset. If
>> >>> not, kindly can you pick it up as is.
>> >>>
>> >>>
>> >>> With regards
>> >>> Maddy
>> >>>
>> >>>> Kirill A. Shutemov with 8c6e50b029 commit introduced
>> >>>> vm_ops->map_pages() for mapping easy accessible pages around
>> >>>> fault address in hope to reduce number of minor page faults.
>> >>>>
>> >>>> This patch creates infrastructure to modify the FAULT_AROUND_ORDER
>> >>>> value using mm/Kconfig. This will enable architecture maintainers
>> >>>> to decide on suitable FAULT_AROUND_ORDER value based on
>> >>>> performance data for that architecture. First patch also defaults
>> >>>> FAULT_AROUND_ORDER Kconfig element to 4. Second patch list
>> >>>> out the performance numbers for powerpc (platform pseries) and
>> >>>> initialize the fault around order variable for pseries platform of
>> >>>> powerpc.
>> >>
>> >> Sorry for not commenting earlier - just reminded by this ping to Ingo.
>> >>
>> >> I didn't study your numbers, but nowhere did I see what PAGE_SIZE you use.
>> >>
>> >> arch/powerpc/Kconfig suggests that Power supports base page size of
>> >> 4k, 16k, 64k or 256k.
>> >>
>> >> I would expect your optimal fault_around_order to depend very much on
>> >> the base page size.
>> > 
>> > It was 64k, which is what PPC64 uses on all the major distributions.
>> > You really only get a choice of 4k and 64k with 64 bit power.
>> > 
>> This is true. PPC64 support multiple pagesize and yes the default page
>> size of 64k, is taken as base pagesize for the tests.
>> 
>> >> Perhaps fault_around_size would provide a more useful default?
>> > 
>> > That seems to fit.  With 4k pages and order 4, you're asking for 64k.
>> > Maddy's result shows 64k is also reasonable for 64k pages.
>> > 
>> > Perhaps we try to generalize from two data points (a slight improvement
>> > over doing it from 1!), eg:
>> > 
>> > /* 4 seems good for 4k-page x86, 0 seems good for 64k page ppc64, so: */
>> > unsigned int fault_around_order __read_mostly =
>> >         (16 - PAGE_SHIFT < 0 ? 0 : 16 - PAGE_SHIFT);
>
> Rusty's bimodal answer doesn't seem the right starting point to me.

?  It's not bimodal, it's graded.  I think you misread?

> Shouldn't FAULT_AROUND_ORDER and fault_around_order be changed to be
> the order of the fault-around size in bytes, and fault_around_pages()
> use 1UL << (fault_around_order - PAGE_SHIFT)
> - when that doesn't wrap, of course!
>
> That would at least have a better chance of being appropriate for
> architectures with 8k and 16k pages (Itanium springs to mind).

Well, from our two data points it seems that we want to fault in
64k at a time whatever our page size.  Perhaps it's clearer if the
code expresses itself that way.

> Wasn't FAULT_AROUND_ORDER 4 chosen solely on the basis of x86 4k pages?
> Did other architectures, with other page sizes, back that default?
> Clearly not powerpc.

Yeah, BenH flagged it as "we should test this" for powerpc, which is
what Maddy then did.

>> and also this will remove the
>> compile time option to disable the feature?
>
> Compile time option meaning your FAULT_AROUND_ORDER in mm/Kconfig
> for v3.16?
>
> I'm not sure whether Rusty was arguing against that or not.  I think
> we are all three concerned to have a more sensible default than what's
> there at present.  I don't feel very strongly about your Kconfig
> option: I've no objection, if it were to default to byte order 16.

I don't mind either.

Cheers,
Rusty.


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