[PATCH v2 00/11] sched: consolidation of cpu_power

Preeti U Murthy preeti at linux.vnet.ibm.com
Mon May 26 02:44:41 PDT 2014


Hi Vincent,

I conducted test runs of ebizzy on a Power8 box which had 48 cpus.
6 cores with SMT-8 to be precise. Its a single socket box. The results
are as below.

On 05/23/2014 09:22 PM, Vincent Guittot wrote:
> Part of this patchset was previously part of the larger tasks packing patchset
> [1]. I have splitted the latter in 3 different patchsets (at least) to make the
> thing easier.
> -configuration of sched_domain topology [2]
> -update and consolidation of cpu_power (this patchset)
> -tasks packing algorithm
> 
> SMT system is no more the only system that can have a CPUs with an original
> capacity that is different from the default value. We need to extend the use of
> cpu_power_orig to all kind of platform so the scheduler will have both the
> maximum capacity (cpu_power_orig/power_orig) and the current capacity
> (cpu_power/power) of CPUs and sched_groups. A new function arch_scale_cpu_power
> has been created and replace arch_scale_smt_power, which is SMT specifc in the
> computation of the capapcity of a CPU.
> 
> During load balance, the scheduler evaluates the number of tasks that a group
> of CPUs can handle. The current method assumes that tasks have a fix load of 
> SCHED_LOAD_SCALE and CPUs have a default capacity of SCHED_POWER_SCALE.
> This assumption generates wrong decision by creating ghost cores and by
> removing real ones when the original capacity of CPUs is different from the
> default SCHED_POWER_SCALE.
> 
> Now that we have the original capacity of a CPUS and its activity/utilization,
> we can evaluate more accuratly the capacity of a group of CPUs.
> 
> This patchset mainly replaces the old capacity method by a new one and has kept
> the policy almost unchanged whereas we can certainly take advantage of this new
> statistic in several other places of the load balance.
> 
> TODO:
>  - align variable's and field's name with the renaming [3]
> 
> Tests results:
> I have put below results of 2 tests:
> - hackbench -l 500 -s 4096
> - scp of 100MB file on the platform
> 
> on a dual cortex-A7 
>                   hackbench        scp    
> tip/master        25.75s(+/-0.25)  5.16MB/s(+/-1.49)
> + patches 1,2     25.89s(+/-0.31)  5.18MB/s(+/-1.45)
> + patches 3-10    25.68s(+/-0.22)  7.00MB/s(+/-1.88)
> + irq accounting  25.80s(+/-0.25)  8.06MB/s(+/-0.05)
> 
> on a quad cortex-A15 
>                   hackbench        scp    
> tip/master        15.69s(+/-0.16)  9.70MB/s(+/-0.04)
> + patches 1,2     15.53s(+/-0.13)  9.72MB/s(+/-0.05)
> + patches 3-10    15.56s(+/-0.22)  9.88MB/s(+/-0.05)
> + irq accounting  15.99s(+/-0.08) 10.37MB/s(+/-0.03)
> 
> The improvement of scp bandwidth happens when tasks and irq are using
> different CPU which is a bit random without irq accounting config

N -> Number of threads of ebizzy

Each 'N' run was for 30 seconds with multiple iterations and averaging them.

N          %change in number of records
           read after patching
------------------------------------------
1          + 0.0038
4          -17.6429
8          -26.3989
12         -29.5070
16         -38.4842
20         -44.5747
24         -51.9792
28         -34.1863
32         -38.4029
38         -22.2490
42          -7.4843
47         -0.69676

Let me profile it and check where the cause of this degradation is.


Regards
Preeti U Murthy




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