[PATCH v2] cpuidle/pseries: Fixup CEDE0 latency only for POWER10 onwards
Gautham R Shenoy
ego at linux.vnet.ibm.com
Thu Apr 29 21:10:40 AEST 2021
Hello Michael,
On Thu, Apr 29, 2021 at 07:56:25PM +1000, Michael Ellerman wrote:
> "Gautham R. Shenoy" <ego at linux.vnet.ibm.com> writes:
> > From: "Gautham R. Shenoy" <ego at linux.vnet.ibm.com>
> >
> > Commit d947fb4c965c ("cpuidle: pseries: Fixup exit latency for
> > CEDE(0)") sets the exit latency of CEDE(0) based on the latency values
> > of the Extended CEDE states advertised by the platform
> >
> > On POWER9 LPARs, the firmwares advertise a very low value of 2us for
> > CEDE1 exit latency on a Dedicated LPAR. The latency advertized by the
> > PHYP hypervisor corresponds to the latency required to wakeup from the
> > underlying hardware idle state. However the wakeup latency from the
> > LPAR perspective should include
> >
> > 1. The time taken to transition the CPU from the Hypervisor into the
> > LPAR post wakeup from platform idle state
> >
> > 2. Time taken to send the IPI from the source CPU (waker) to the idle
> > target CPU (wakee).
> >
> > 1. can be measured via timer idle test, where we queue a timer, say
> > for 1ms, and enter the CEDE state. When the timer fires, in the timer
> > handler we compute how much extra timer over the expected 1ms have we
> > consumed. On a a POWER9 LPAR the numbers are
> >
> > CEDE latency measured using a timer (numbers in ns)
> > N Min Median Avg 90%ile 99%ile Max Stddev
> > 400 2601 5677 5668.74 5917 6413 9299 455.01
> >
> > 1. and 2. combined can be determined by an IPI latency test where we
> > send an IPI to an idle CPU and in the handler compute the time
> > difference between when the IPI was sent and when the handler ran. We
> > see the following numbers on POWER9 LPAR.
> >
> > CEDE latency measured using an IPI (numbers in ns)
> > N Min Median Avg 90%ile 99%ile Max Stddev
> > 400 711 7564 7369.43 8559 9514 9698 1200.01
> >
> > Suppose, we consider the 99th percentile latency value measured using
> > the IPI to be the wakeup latency, the value would be 9.5us This is in
> > the ballpark of the default value of 10us.
> >
> > Hence, use the exit latency of CEDE(0) based on the latency values
> > advertized by platform only from POWER10 onwards. The values
> ^^^^^^^
> > advertized on POWER10 platforms is more realistic and informed by the
> > latency measurements. For earlier platforms stick to the default value
> > of 10us.
>
> ...
>
> > diff --git a/drivers/cpuidle/cpuidle-pseries.c b/drivers/cpuidle/cpuidle-pseries.c
> > index a2b5c6f..7207467 100644
> > --- a/drivers/cpuidle/cpuidle-pseries.c
> > +++ b/drivers/cpuidle/cpuidle-pseries.c
> > @@ -419,7 +419,8 @@ static int pseries_idle_probe(void)
> > cpuidle_state_table = shared_states;
> > max_idle_state = ARRAY_SIZE(shared_states);
> > } else {
> > - fixup_cede0_latency();
> > + if (pvr_version_is(PVR_POWER10))
> > + fixup_cede0_latency();
>
> A PVR check like that tests for *only* Power10, not Power10 and onwards
> as you say in the change log.
Right. The accurate thing would be to check not do the fix up for
!(PVR_POWER4 || PVR_POWER4p || POWER_POWER5 || PVR_POWER5p || PVR_POWER6 || PVR_POWER7
|| PVR_POWER8 || PVR_POWER9)
But that was a bit mouthful. I will go with your suggestion (from
private correspondence)
if (cpu_has_feature(CPU_FTR_ARCH_31) || pvr_version_is(PVR_POWER10))
fixup_cede0_latency();
since it will allow the fixup for Processors suporting ISA 3.1
(POWER10 and above) and also on POWER10 CPUs running in compat mode.
>
> The other question is what should happen on a Power10 LPAR that's
> running in Power9 compat mode. I assume in that case we *do* want to use
> the firmware provided values, because they're tied to the underlying
> CPU, not the compat mode?
>
Yes, the firmware provided values are tied to the underlying CPU. Not
the compat mode.
> In which case a check for !PVR_POWER9 would seem to achieve what we
> want?
>
> cheers
--
Thanks and Regards
gautham.
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