Re: [PATCH 1/2] x86/fpu: Measure the Latency of XSAVE and XRSTOR

From: Luck, Tony
Date: Sun Jul 24 2022 - 19:00:27 EST


RDTSC has returned values invariant of current frequency since Nehalem (modulo a few hiccoughs). So any CPU with XSAVE/XRESTOR should be safe to measure using TSC.

Sent from my iPhone

> On Jul 24, 2022, at 14:16, David Laight <David.Laight@xxxxxxxxxx> wrote:
>
> From: Yi Sun
>> Sent: 23 July 2022 09:38
>>
>> Calculate the latency of instructions xsave and xrstor with new trace
>> points x86_fpu_latency_xsave and x86_fpu_latency_xrstor.
>>
>> The delta TSC can be calculated within a single trace event. Another
>> option considered was to have 2 separated trace events marking the
>> start and finish of the xsave/xrstor instructions. The delta TSC was
>> calculated from the 2 trace points in user space, but there was
>> significant overhead added by the trace function itself.
>>
>> In internal testing, the single trace point option which is
>> implemented here proved to be more accurate.
> ...
>
> I've done some experiments that measure short instruction latencies.
> Basically I found:
> 1) You need a suitable serialising instruction before and after
> the code being tested - otherwise it can overlap whatever
> you are using for timing.
> 2) The only reliable counter is the performance monitor clock
> counter - everything else depends on the current cpu frequency.
> On intel cpu the cpu frequency can change all the time.
> Allowing for that, and then ignoring complete outliers, I could
> get clock-count accurate values for iterations of the IP csum loop.
>
> David
>
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