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SubjectRe: [PATCH v4 2/3] mm/free_pcppages_bulk: do not hold lock when picking pages to free
On Fri, 2 Mar 2018 16:01:25 +0800 Aaron Lu <aaron.lu@intel.com> wrote:

> On Thu, Mar 01, 2018 at 04:01:05PM -0800, Andrew Morton wrote:
> > On Thu, 1 Mar 2018 14:28:44 +0800 Aaron Lu <aaron.lu@intel.com> wrote:
> >
> > > When freeing a batch of pages from Per-CPU-Pages(PCP) back to buddy,
> > > the zone->lock is held and then pages are chosen from PCP's migratetype
> > > list. While there is actually no need to do this 'choose part' under
> > > lock since it's PCP pages, the only CPU that can touch them is us and
> > > irq is also disabled.
> > >
> > > Moving this part outside could reduce lock held time and improve
> > > performance. Test with will-it-scale/page_fault1 full load:
> > >
> > > kernel Broadwell(2S) Skylake(2S) Broadwell(4S) Skylake(4S)
> > > v4.16-rc2+ 9034215 7971818 13667135 15677465
> > > this patch 9536374 +5.6% 8314710 +4.3% 14070408 +3.0% 16675866 +6.4%
> > >
> > > What the test does is: starts $nr_cpu processes and each will repeatedly
> > > do the following for 5 minutes:
> > > 1 mmap 128M anonymouse space;
> > > 2 write access to that space;
> > > 3 munmap.
> > > The score is the aggregated iteration.
> >
> > But it's a loss for uniprocessor systems: it adds more code and adds an
> > additional pass across a list.
>
> Performance wise, I assume the loss is pretty small and can not
> be measured.
>
> On my Sandybridge desktop, with will-it-scale/page_fault1/single process
> run to emulate uniprocessor system, the score is(average of 3 runs):
>
> base(patch 1/3): 649710
> this patch: 653554 +0.6%

Does that mean we got faster or slower?

> prefetch(patch 3/3): 650336 (in noise range compared to base)
>
> On 4 sockets Intel Broadwell with will-it-scale/page_fault1/single
> process run:
>
> base(patch 1/3): 498649
> this patch: 504171 +1.1%
> prefetch(patch 3/3): 506334 +1.5% (compared to base)
>
> It looks like we don't need to worry too much about performance for
> uniprocessor system.

Well. We can say that of hundreds of patches. And we end up with a
fatter and slower kernel than we otherwise would.

Please take a look, see if there's a tidy way of avoiding this.
Probably there isn't, in which case oh well. But let's at least try.

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