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    SubjectRe: [PATCH RFC 1/2] kvm: Handle undercommitted guest case in PLE handler
    On 09/25/2012 09:36 AM, Raghavendra K T wrote:
    > On 09/24/2012 09:11 PM, Avi Kivity wrote:
    >> On 09/21/2012 08:24 PM, Raghavendra K T wrote:
    >>> On 09/21/2012 06:32 PM, Rik van Riel wrote:
    >>>> On 09/21/2012 08:00 AM, Raghavendra K T wrote:
    >>>>> From: Raghavendra K T<raghavendra.kt@linux.vnet.ibm.com>
    >>>>>
    >>>>> When total number of VCPUs of system is less than or equal to
    >>>>> physical
    >>>>> CPUs,
    >>>>> PLE exits become costly since each VCPU can have dedicated PCPU, and
    >>>>> trying to find a target VCPU to yield_to just burns time in PLE
    >>>>> handler.
    >>>>>
    >>>>> This patch reduces overhead, by simply doing a return in such
    >>>>> scenarios by
    >>>>> checking the length of current cpu runqueue.
    >>>>
    >>>> I am not convinced this is the way to go.
    >>>>
    >>>> The VCPU that is holding the lock, and is not releasing it,
    >>>> probably got scheduled out. That implies that VCPU is on a
    >>>> runqueue with at least one other task.
    >>>
    >>> I see your point here, we have two cases:
    >>>
    >>> case 1)
    >>>
    >>> rq1 : vcpu1->wait(lockA) (spinning)
    >>> rq2 : vcpu2->holding(lockA) (running)
    >>>
    >>> Here Ideally vcpu1 should not enter PLE handler, since it would surely
    >>> get the lock within ple_window cycle. (assuming ple_window is tuned for
    >>> that workload perfectly).
    >>>
    >>> May be this explains why we are not seeing benefit with kernbench.
    >>>
    >>> On the other side, Since we cannot have a perfect ple_window tuned for
    >>> all type of workloads, for those workloads, which may need more than
    >>> 4096 cycles, we gain. thinking is it that we are seeing in benefited
    >>> cases?
    >>
    >> Maybe we need to increase the ple window regardless. 4096 cycles is 2
    >> microseconds or less (call it t_spin). The overhead from
    >> kvm_vcpu_on_spin() and the associated task switches is at least a few
    >> microseconds, increasing as contention is added (call it t_tield). The
    >> time for a natural context switch is several milliseconds (call it
    >> t_slice). There is also the time the lock holder owns the lock,
    >> assuming no contention (t_hold).
    >>
    >> If t_yield> t_spin, then in the undercommitted case it dominates
    >> t_spin. If t_hold> t_spin we lose badly.
    >>
    >> If t_spin> t_yield, then the undercommitted case doesn't suffer as much
    >> as most of the spinning happens in the guest instead of the host, so it
    >> can pick up the unlock timely. We don't lose too much in the
    >> overcommitted case provided the values aren't too far apart (say a
    >> factor of 3).
    >>
    >> Obviously t_spin must be significantly smaller than t_slice, otherwise
    >> it accomplishes nothing.
    >>
    >> Regarding t_hold: if it is small, then a larger t_spin helps avoid false
    >> exits. If it is large, then we're not very sensitive to t_spin. It
    >> doesn't matter if it takes us 2 usec or 20 usec to yield, if we end up
    >> yielding for several milliseconds.
    >>
    >> So I think it's worth trying again with ple_window of 20000-40000.
    >>
    >
    > Agree that spinning is not costly and I have tried increasing
    > ple_window earlier. I 'll give one more shot.
    >
    > I was thinking, unnessary spinning of vcpus (spinning when lockholder
    > is preempted), add up to degradation significantly, especially in
    > ticketlock scenario is more problemtic. no?
    >

    It will. The tradeoff is between false-positive costs (undercommit) and
    true positive costs (overcommit). I think undercommit should perform
    well no matter what.

    If we utilize preempt notifiers to track overcommit dynamically, then we
    can vary the spin time dynamically. Keep it long initially, as we get
    more preempted vcpus make it shorter.

    --
    I have a truly marvellous patch that fixes the bug which this
    signature is too narrow to contain.



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