On Thu, 2020-09-03 at 17:30 +0530, Pratik Sampat wrote:
I certainly did not know about that the Intel architecture being aware of timers and pre-wakes the CPUs which makes the timer experiment observations void.
Well, things depend on platform, it is really "void", it is just different and it measures an optimized case. The result may be smaller observed latency. And things depend on the platform.
However, we are also collecting a baseline measurement wherein we run the same test on a 100% busy CPU and the measurement of latency from that could be considered to the kernel-userspace overhead. The rest of the measurements would be considered keeping this baseline in mind.
Yes, this should give the idea of the overhead, but still, at least for many Intel platforms I would not be comfortable using the resulting number (measured latency - baseline) for a cpuidle driver, because there are just too many variables there. I am not sure I could assume the baseline measured this way is an invariant - it could be noticeably different depending on whether you use C-states or not.
At least on Intel platforms, this will mean that the IPI method won't cover deep C-states like, say, PC6, because one CPU is busy. Again, not saying this is not interesting, just pointing out the limitation.
That's a valid point. We have similar deep idle states in POWER too. The idea here is that this test should be run on an already idle system, of course there will be kernel jitters along the way which can cause little skewness in observations across some CPUs but I believe the observations overall should be stable.
If baseline and cpuidle latency are numbers of same order of magnitude, and you are measuring in a controlled lab system, may be yes. But if baseline is, say, in milliseconds, and you are measuring a 10 microseconds C-state, then probably no.
Another solution to this could be using isolcpus, but that just increases the complexity all the more. If you have any suggestions of any other way that could guarantee idleness that would be great.
Well, I did not try to guarantee idleness. I just use timers and external device (the network card), so no CPUs needs to be busy and the system can enter deep C-states. Then I just look at median, 99%-th percentile, etc.
But by all means IPI is also a very interesting experiment. Just covers a different usage scenario.
When I started experimenting in this area, one of my main early takeaways was realization that C-state latency really depends on the event source.
HTH, Artem.