While tracking down a latency issue with communication between KVM guests, we ran into a very interesting issue, an interplay of CFS and power saving code.
About 3/4 of the 230us latency came from CPUs waking up out of C-states. Disabling C states reduced the latency to 60us... The issue? The communication is between various threads and processes, each of which last ran on a CPU that is now in a deeper C state. The total latency from that is "CPU wakeup latency * NR CPUs woken". This problem could be common to many different multi-threaded or multi-process applications. It looks like something that would be fixable at the scheduler + cpufreq level. Specifically, waking up some process requires that the CPU which is running the wakeup is already in C0 state. If the CPU on which the to-be-woken task ran last is in a deep C state, it may make sense to simply run the woken up task on the local CPU, not the CPU where it was originally. I seem to remember some scheduling code that (for power saving reasons) tried running all the tasks on one CPU, until that CPU got busy, and then spilled over onto other CPUs. I do not seem to be able to find that code in recent kernels, but I have the feeling that a policy like that (related to WAKE_AFFINE scheduling?) could improve this issue. As an additional benefit, it has the possibility of further improving power saving. What do the scheduler and cpufreq people think about this problem? Any preferred ways to solve the "N * cpu wakeup latency" problem that is plaguing multi-process and multi-threaded workloads? -- All rights reversed -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majord...@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/
