[PATCH 0/5] cpuidle-pseries: Parse extended CEDE information for idle.
From: Gautham R. Shenoy
Date: Tue Jul 07 2020 - 07:12:09 EST
From: "Gautham R. Shenoy" <ego@xxxxxxxxxxxxxxxxxx>
Hi,
On pseries Dedicated Linux LPARs, apart from the polling snooze idle
state, we currently have the CEDE idle state which cedes the CPU to
the hypervisor with latency-hint = 0.
However, the PowerVM hypervisor supports additional extended CEDE
states, which can be queried through the "ibm,get-systems-parameter"
rtas-call with the CEDE_LATENCY_TOKEN. The hypervisor maps these
extended CEDE states to appropriate platform idle-states in order to
provide energy-savings as well as shifting power to the active
units. On existing pseries LPARs today we have extended CEDE with
latency-hints {1,2} supported.
In Patches 1-3 of this patchset, we add the code to parse the CEDE
latency records provided by the hypervisor. We use this information to
determine the wakeup latency of the regular CEDE (which we have been
so far hardcoding to 10us while experimentally it is much lesser ~
1us), by looking at the wakeup latency provided by the hypervisor for
Extended CEDE states. Since the platform currently advertises Extended
CEDE 1 to have wakeup latency of 2us, we can be sure that the wakeup
latency of the regular CEDE is no more than this.
Patch 4 (currently marked as RFC), expose the extended CEDE states
parsed above to the cpuidle framework, provided that they can wakeup
on an interrupt. On current platforms only Extended CEDE 1 fits the
bill, but this is going to change in future platforms where even
Extended CEDE 2 may be responsive to external interrupts.
Patch 5 (currently marked as RFC), filters out Extended CEDE 1 since
it offers no added advantage over the normal CEDE.
With Patches 1-3, we see an improvement in the single-threaded
performance on ebizzy.
2 ebizzy threads bound to the same big-core. 25% improvement in the
avg records/s (higher the better) with patches 1-3.
x without_patches
* with_patches
N Min Max Median Avg Stddev
x 10 2491089 5834307 5398375 4244335 1596244.9
* 10 2893813 5834474 5832448 5327281.3 1055941.4
We do not observe any major regression in either the context_switch2
benchmark or the schbench benchmark
context_switch2 across CPU0 CPU1 (Both belong to same big-core, but different
small cores). We observe a minor 0.14% regression in the number of
context-switches (higher is better).
x without_patch
* with_patch
N Min Max Median Avg Stddev
x 500 348872 362236 354712 354745.69 2711.827
* 500 349422 361452 353942 354215.4 2576.9258
context_switch2 across CPU0 CPU8 (Different big-cores). We observe a 0.37%
improvement in the number of context-switches (higher is better).
x without_patch
* with_patch
N Min Max Median Avg Stddev
x 500 287956 294940 288896 288977.23 646.59295
* 500 288300 294646 289582 290064.76 1161.9992
schbench:
No major difference could be seen until the 99.9th percentile.
Without-patch
Latency percentiles (usec)
50.0th: 29
75.0th: 39
90.0th: 49
95.0th: 59
*99.0th: 13104
99.5th: 14672
99.9th: 15824
min=0, max=17993
With-patch:
Latency percentiles (usec)
50.0th: 29
75.0th: 40
90.0th: 50
95.0th: 61
*99.0th: 13648
99.5th: 14768
99.9th: 15664
min=0, max=29812
Gautham R. Shenoy (5):
cpuidle-pseries: Set the latency-hint before entering CEDE
cpuidle-pseries: Add function to parse extended CEDE records
cpuidle-pseries : Fixup exit latency for CEDE(0)
cpuidle-pseries : Include extended CEDE states in cpuidle framework
cpuidle-pseries: Block Extended CEDE(1) which adds no additional
value.
drivers/cpuidle/cpuidle-pseries.c | 268 +++++++++++++++++++++++++++++++++++++-
1 file changed, 266 insertions(+), 2 deletions(-)
--
1.9.4