On Mon, 8 Apr 2024 12:24:35 +0800 Lance Yang <[email protected]> wrote:
> Hi All,
>
> This patchset adds support for lazyfreeing multi-size THP (mTHP) without
> needing to first split the large folio via split_folio(). However, we
> still need to split a large folio that is not fully mapped within the
> target range.
>
> If a large folio is locked or shared, or if we fail to split it, we just
> leave it in place and advance to the next PTE in the range. But note that
> the behavior is changed; previously, any failure of this sort would cause
> the entire operation to give up. As large folios become more common,
> sticking to the old way could result in wasted opportunities.
>
> Performance Testing
> ===================
>
> On an Intel I5 CPU, lazyfreeing a 1GiB VMA backed by PTE-mapped folios of
> the same size results in the following runtimes for madvise(MADV_FREE)
> in seconds (shorter is better):
>
> Folio Size | Old | New | Change
> ------------------------------------------
> 4KiB | 0.590251 | 0.590259 | 0%
> 16KiB | 2.990447 | 0.185655 | -94%
> 32KiB | 2.547831 | 0.104870 | -95%
> 64KiB | 2.457796 | 0.052812 | -97%
> 128KiB | 2.281034 | 0.032777 | -99%
> 256KiB | 2.230387 | 0.017496 | -99%
> 512KiB | 2.189106 | 0.010781 | -99%
> 1024KiB | 2.183949 | 0.007753 | -99%
> 2048KiB | 0.002799 | 0.002804 | 0%
That looks nice but punting work to another thread can slightly
increase overall system load and can mess up utilization accounting by
attributing work to threads which didn't initiate that work.
And there's a corner-case risk where the thread running madvise() has
realtime policy (SCHED_RR/SCHED_FIFO) on a single-CPU system,
preventing any other threads from executing, resulting in indefinitely
deferred freeing resulting in memory squeezes or even OOM conditions.
It would be good if the changelog(s) were to show some consideration of
such matters and some demonstration that the benefits exceed the risks
and costs.
On Thu, Apr 11, 2024 at 5:50 AM Andrew Morton <[email protected]> wrote:
>
> On Mon, 8 Apr 2024 12:24:35 +0800 Lance Yang <[email protected]> wrote:
>
> > Hi All,
> >
> > This patchset adds support for lazyfreeing multi-size THP (mTHP) without
> > needing to first split the large folio via split_folio(). However, we
> > still need to split a large folio that is not fully mapped within the
> > target range.
> >
> > If a large folio is locked or shared, or if we fail to split it, we just
> > leave it in place and advance to the next PTE in the range. But note that
> > the behavior is changed; previously, any failure of this sort would cause
> > the entire operation to give up. As large folios become more common,
> > sticking to the old way could result in wasted opportunities.
> >
> > Performance Testing
> > ===================
> >
> > On an Intel I5 CPU, lazyfreeing a 1GiB VMA backed by PTE-mapped folios of
> > the same size results in the following runtimes for madvise(MADV_FREE)
> > in seconds (shorter is better):
> >
> > Folio Size | Old | New | Change
> > ------------------------------------------
> > 4KiB | 0.590251 | 0.590259 | 0%
> > 16KiB | 2.990447 | 0.185655 | -94%
> > 32KiB | 2.547831 | 0.104870 | -95%
> > 64KiB | 2.457796 | 0.052812 | -97%
> > 128KiB | 2.281034 | 0.032777 | -99%
> > 256KiB | 2.230387 | 0.017496 | -99%
> > 512KiB | 2.189106 | 0.010781 | -99%
> > 1024KiB | 2.183949 | 0.007753 | -99%
> > 2048KiB | 0.002799 | 0.002804 | 0%
>
> That looks nice but punting work to another thread can slightly
> increase overall system load and can mess up utilization accounting by
> attributing work to threads which didn't initiate that work.
>
> And there's a corner-case risk where the thread running madvise() has
> realtime policy (SCHED_RR/SCHED_FIFO) on a single-CPU system,
> preventing any other threads from executing, resulting in indefinitely
> deferred freeing resulting in memory squeezes or even OOM conditions.
>
> It would be good if the changelog(s) were to show some consideration of
> such matters and some demonstration that the benefits exceed the risks
> and costs.
>
Hey Andrew,
Thanks for bringing up these concerns!
I completely agree that we need to consider such masters and include
them into the changelog(s). Additionally, I'll do my best to show that the
benefits exceed the risks and costs, and then update the changelog(s)
accordingly.
Thanks again for your time!
Lance
On 11/04/2024 06:01, Lance Yang wrote:
> On Thu, Apr 11, 2024 at 5:50 AM Andrew Morton <[email protected]> wrote:
>>
>> On Mon, 8 Apr 2024 12:24:35 +0800 Lance Yang <[email protected]> wrote:
>>
>>> Hi All,
>>>
>>> This patchset adds support for lazyfreeing multi-size THP (mTHP) without
>>> needing to first split the large folio via split_folio(). However, we
>>> still need to split a large folio that is not fully mapped within the
>>> target range.
>>>
>>> If a large folio is locked or shared, or if we fail to split it, we just
>>> leave it in place and advance to the next PTE in the range. But note that
>>> the behavior is changed; previously, any failure of this sort would cause
>>> the entire operation to give up. As large folios become more common,
>>> sticking to the old way could result in wasted opportunities.
>>>
>>> Performance Testing
>>> ===================
>>>
>>> On an Intel I5 CPU, lazyfreeing a 1GiB VMA backed by PTE-mapped folios of
>>> the same size results in the following runtimes for madvise(MADV_FREE)
>>> in seconds (shorter is better):
>>>
>>> Folio Size | Old | New | Change
>>> ------------------------------------------
>>> 4KiB | 0.590251 | 0.590259 | 0%
>>> 16KiB | 2.990447 | 0.185655 | -94%
>>> 32KiB | 2.547831 | 0.104870 | -95%
>>> 64KiB | 2.457796 | 0.052812 | -97%
>>> 128KiB | 2.281034 | 0.032777 | -99%
>>> 256KiB | 2.230387 | 0.017496 | -99%
>>> 512KiB | 2.189106 | 0.010781 | -99%
>>> 1024KiB | 2.183949 | 0.007753 | -99%
>>> 2048KiB | 0.002799 | 0.002804 | 0%
>>
>> That looks nice but punting work to another thread can slightly
>> increase overall system load and can mess up utilization accounting by
>> attributing work to threads which didn't initiate that work.
My understanding is that this speedup is all coming from the avoidance of
splitting folios synchonously in the context of madvise(MADV_FREE). It's not
actually punting anymore work to be done lazily, its just avoiding doing extra
uneccessary work up front. In fact, it would result in less work to do at
lazyfree time because the folios remain large so there are fewer folios to free.
Perhaps I've misunderstood your point?
Thanks,
Ryan
>>
>> And there's a corner-case risk where the thread running madvise() has
>> realtime policy (SCHED_RR/SCHED_FIFO) on a single-CPU system,
>> preventing any other threads from executing, resulting in indefinitely
>> deferred freeing resulting in memory squeezes or even OOM conditions.
>>
>> It would be good if the changelog(s) were to show some consideration of
>> such matters and some demonstration that the benefits exceed the risks
>> and costs.
>>
>
> Hey Andrew,
>
> Thanks for bringing up these concerns!
>
> I completely agree that we need to consider such masters and include
> them into the changelog(s). Additionally, I'll do my best to show that the
> benefits exceed the risks and costs, and then update the changelog(s)
> accordingly.
>
> Thanks again for your time!
> Lance