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SubjectRe: [RFCv2 PATCH 00/23] sched: Energy cost model for energy-aware scheduling
Hi Catalin,

On Fri, Jul 04, 2014 at 05:55:52PM +0100, Catalin Marinas wrote:
> Hi Morten,
>
> On Thu, Jul 03, 2014 at 05:25:47PM +0100, Morten Rasmussen wrote:
> > This is an RFC and there are some loose ends that have not been
> > addressed here or in the code yet. The model and its infrastructure is
> > in place in the scheduler and it is being used for load-balancing
> > decisions. It is used for the select_task_rq_fair() path for
> > fork/exec/wake balancing and to guide the selection of the source cpu
> > for periodic or idle balance.
>
> IMHO, the series is on the right direction for addressing the energy
> aware scheduling (very complex) problem. But I have some high level
> comments below.
>
> > However, the main ideas and the primary focus of this RFC: The energy
> > model and energy_diff_{load, task, cpu}() are there.
> >
> > Due to limitation 1, the ARM TC2 platform (2xA15+3xA7) was setup to
> > disable frequency scaling and set frequencies to eliminate the
> > big.LITTLE performance difference. That basically turns TC2 into an SMP
> > platform where a subset of the cpus are less energy-efficient.
> >
> > Tests using a synthetic workload with seven short running periodic
> > tasks of different size and period, and the sysbench cpu benchmark with
> > five threads gave the following results:
> >
> > cpu energy* short tasks sysbench
> > Mainline 100 100
> > EA 49 99
> >
> > * Note that these energy savings are _not_ representative of what can be
> > achieved on a true SMP platform where all cpus are equally
> > energy-efficient. There should be benefit for SMP platforms as well,
> > however, it will be smaller.
>
> My impression (and I may be wrong) is that you get bigger energy saving
> on a big.LITTLE vs SMP system exactly because of the asymmetry in power
> consumption.

That is correct. As said in the note above, the benefit will be smaller
on SMP systems.

> The algorithm proposed here ends up packing small tasks on
> the little CPUs as they are more energy efficient (which is the correct
> thing to do but I wonder what results you would get with 3xA7 vs
> 2xA7+1xA15).
>
> For a symmetric system where all CPUs have the same energy model you
> could end up with several small threads balanced equally across the
> system. The only way the scheduler could avoid a CPU is if it somehow
> manages to get into a deeper idle state (and energy_diff_task() would
> show some asymmetry). But this wouldn't happen without the scheduler
> first deciding to leave that CPU idle for longer.

It is a scenario that could happen with the current use of
energy_diff_task() in the wakeup balancing path. Any 'imbalance' might
make some cpus cheaper and hence attract the other tasks, but it is not
guaranteed to happen.

> Could this be addressed by making the scheduler more "proactive" and,
> rather than just looking at the current energy diff, guesstimate what it
> would be if not placing a task at all on the CPU? If for example there
> is no other task running on that CPU, could energy_diff_task() take into
> account the next deeper C-state rather than just the current one? This
> way we may be able to achieve more packing even on fully symmetric
> systems and allow CPUs to go into deeper sleep states.

I think it would be possible to bias the choice of cpu either by
considering potential energy savings by letting some cpus get into a
deeper C-state, or applying a static bias towards some cpus (lower cpuid
for example). Since it is in the wakeup path it must not be too complex
to figure out though.

I haven't seen the problem in reality yet. When I tried the short tasks
test with all cpus using the same energy model I got tasks consolidated
on either of the clusters. The consolidation cluster sometimes changed
during the test.

There is a lot of tuning to be done, that is for sure. We will have to
make similar decisions for the periodic/idle balance path as well.

Thanks,
Morten



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