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SubjectRe: [PATCH v6 00/14] Energy Aware Scheduling
Date
On Monday, August 20, 2018 11:44:06 AM CEST Quentin Perret wrote:
> This patch series introduces Energy Aware Scheduling (EAS) for CFS tasks
> on platforms with asymmetric CPU topologies (e.g. Arm big.LITTLE).
>
> For more details about the ideas behind it and the overall design,
> please refer to the cover letter of version 5 [1].
>
>
> 1. Version History
> ------------------
>
> Changes v5[1]->v6:
> - Rebased on Peter’s sched/core branch (that includes Morten's misfit
> patches [2] and the automatic detection of SD_ASYM_CPUCAPACITY [3])
> - Removed patch 13/14 (not needed with the automatic flag detection)
> - Added patch creating a dependency between sugov and EAS
> - Renamed frequency domains to performance domains to avoid creating too
> deep assumptions in the code about the HW
> - Renamed the sd_ea shortcut sd_asym_cpucapacity
> - Added comment to explain why new tasks are not accounted when
> detecting the 'overutilized' flag
> - Added comment explaining why forkees don’t go in
> find_energy_efficient_cpu()
>
> Changes v4[4]->v5:
> - Removed the RCU protection of the EM tables and the associated
> need for em_rescale_cpu_capacity().
> - Factorized schedutil’s PELT aggregation function with EAS
> - Improved comments/doc in the EM framework
> - Added check on the uarch of CPUs in one fd in the EM framework
> - Reduced CONFIG_ENERGY_MODEL ifdefery in kernel/sched/topology.c
> - Cleaned-up update_sg_lb_stats parameters
> - Improved comments in compute_energy() to explain the multi-rd
> scenarios
>
> Changes v3[5]->v4:
> - Replaced spinlock in EM framework by smp_store_release/READ_ONCE
> - Fixed missing locks to protect rcu_assign_pointer in EM framework
> - Fixed capacity calculation in EM framework on 32 bits system
> - Fixed compilation issue for CONFIG_ENERGY_MODEL=n
> - Removed cpumask from struct em_freq_domain, now dynamically allocated
> - Power costs of the EM are specified in milliwatts
> - Added example of CPUFreq driver modification
> - Added doc/comments in the EM framework and better commit header
> - Fixed integration issue with util_est in cpu_util_next()
> - Changed scheduler topology code to have one freq. dom. list per rd
> - Split sched topology patch in smaller patches
> - Added doc/comments explaining the heuristic in the wake-up path
> - Changed energy threshold for migration to from 1.5% to 6%
>
> Changes v2[6]->v3:
> - Removed the PM_OPP dependency by implementing a new EM framework
> - Modified the scheduler topology code to take references on the EM data
> structures
> - Simplified the overutilization mechanism into a system-wide flag
> - Reworked the integration in the wake-up path using the sd_ea shortcut
> - Rebased on tip/sched/core (247f2f6f3c70 "sched/core: Don't schedule
> threads on pre-empted vCPUs")
>
> Changes v1[7]->v2:
> - Reworked interface between fair.c and energy.[ch] (Remove #ifdef
> CONFIG_PM_OPP from energy.c) (Greg KH)
> - Fixed licence & header issue in energy.[ch] (Greg KH)
> - Reordered EAS path in select_task_rq_fair() (Joel)
> - Avoid prev_cpu if not allowed in select_task_rq_fair() (Morten/Joel)
> - Refactored compute_energy() (Patrick)
> - Account for RT/IRQ pressure in task_fits() (Patrick)
> - Use UTIL_EST and DL utilization during OPP estimation (Patrick/Juri)
> - Optimize selection of CPU candidates in the energy-aware wake-up path
> - Rebased on top of tip/sched/core (commit b720342849fe “sched/core:
> Update Preempt_notifier_key to modern API”)
>
>
> 2. Test results
> ---------------
>
> Two fundamentally different tests were executed. Firstly the energy test
> case shows the impact on energy consumption this patch-set has using a
> synthetic set of tasks. Secondly the performance test case provides the
> conventional hackbench metric numbers.
>
> The tests run on two arm64 big.LITTLE platforms: Hikey960 (4xA73 +
> 4xA53) and Juno r0 (2xA57 + 4xA53).
>
> Base kernel is tip/sched/core (4.18-rc5), with some Hikey960 and Juno
> specific patches, the SD_ASYM_CPUCAPACITY flag set at DIE sched domain
> level for arm64 and schedutil as cpufreq governor [8].
>
> 2.1 Energy test case
>
> 10 iterations of between 10 and 50 periodic rt-app tasks (16ms period,
> 5% duty-cycle) for 30 seconds with energy measurement. Unit is Joules.
> The goal is to save energy, so lower is better.
>
> 2.1.1 Hikey960
>
> Energy is measured with an ACME Cape on an instrumented board. Numbers
> include consumption of big and little CPUs, LPDDR memory, GPU and most
> of the other small components on the board. They do not include
> consumption of the radio chip (turned-off anyway) and external
> connectors.
>
> +----------+-----------------+-------------------------+
> | | Without patches | With patches |
> +----------+--------+--------+------------------+------+
> | Tasks nb | Mean | RSD* | Mean | RSD* |
> +----------+--------+--------+------------------+------+
> | 10 | 34.33 | 4.8% | 30.51 (-11.13%) | 6.4% |
> | 20 | 52.84 | 1.9% | 44.15 (-16.45%) | 2.0% |
> | 30 | 66.20 | 1.8% | 60.14 (-9.15%) | 4.8% |
> | 40 | 90.83 | 2.5% | 86.91 (-4.32%) | 2.7% |
> | 50 | 136.76 | 4.6% | 108.90 (-20.37%) | 4.7% |
> +----------+--------+--------+------------------+------+
>
> 2.1.2 Juno r0
>
> Energy is measured with the onboard energy meter. Numbers include
> consumption of big and little CPUs.
>
> +----------+-----------------+------------------------+
> | | Without patches | With patches |
> +----------+--------+--------+-----------------+------+
> | Tasks nb | Mean | RSD* | Mean | RSD* |
> +----------+--------+--------+-----------------+------+
> | 10 | 11.48 | 3.2% | 8.09 (-29.53%) | 3.1% |
> | 20 | 20.84 | 3.4% | 14.38 (-31.00%) | 1.1% |
> | 30 | 32.94 | 3.2% | 23.97 (-27.23%) | 1.0% |
> | 40 | 46.05 | 0.5% | 37.82 (-17.87%) | 6.2% |
> | 50 | 57.25 | 0.5% | 55.30 ( -3.41%) | 0.5% |
> +----------+--------+--------+-----------------+------+
>
>
> 2.2 Performance test case
>
> 30 iterations of perf bench sched messaging --pipe --thread --group G
> --loop L with G=[1 2 4 8] and L=50000 (Hikey960)/16000 (Juno r0).
>
> 2.2.1 Hikey960
>
> The impact of thermal capping was mitigated thanks to a heatsink, a
> fan, and a 30 sec delay between two successive executions. IPA is
> disabled to reduce the stddev.
>
> +----------------+-----------------+------------------------+
> | | Without patches | With patches |
> +--------+-------+---------+-------+----------------+-------+
> | Groups | Tasks | Mean | RSD* | Mean | RSD* |
> +--------+-------+---------+-------+----------------+-------+
> | 1 | 40 | 8.04 | 0.88% | 8.22 (+2.31%) | 1.76% |
> | 2 | 80 | 14.78 | 0.67% | 14.83 (+0.35%) | 0.59% |
> | 4 | 160 | 30.92 | 0.57% | 30.95 (+0.09%) | 0.51% |
> | 8 | 320 | 65.54 | 0.32% | 65.57 (+0.04%) | 0.46% |
> +--------+-------+---------+-------+----------------+-------+
>
> 2.2.2 Juno r0
>
> +----------------+-----------------+-----------------------+
> | | Without patches | With patches |
> +--------+-------+---------+-------+---------------+-------+
> | Groups | Tasks | Mean | RSD* | Mean | RSD* |
> +--------+-------+---------+-------+---------------+-------+
> | 1 | 40 | 7.74 | 0.13% | 7.82 (0.01%) | 0.12% |
> | 2 | 80 | 14.27 | 0.15% | 14.27 (0.00%) | 0.14% |
> | 4 | 160 | 27.07 | 0.35% | 26.96 (0.00%) | 0.18% |
> | 8 | 320 | 55.14 | 1.81% | 55.21 (0.00%) | 1.29% |
> +--------+-------+---------+-------+---------------+-------+
>
> *RSD: Relative Standard Deviation (std dev / mean)
>
>
> [1] https://marc.info/?l=linux-pm&m=153243513908731&w=2
> [2] https://marc.info/?l=linux-kernel&m=153069968022982&w=2
> [3] https://marc.info/?l=linux-kernel&m=153209362826476&w=2
> [4] https://marc.info/?l=linux-kernel&m=153018606728533&w=2
> [5] https://marc.info/?l=linux-kernel&m=152691273111941&w=2
> [6] https://marc.info/?l=linux-kernel&m=152302902427143&w=2
> [7] https://marc.info/?l=linux-kernel&m=152153905805048&w=2
> [8] http://www.linux-arm.org/git?p=linux-qp.git;a=shortlog;h=refs/heads/upstream/eas_v6
>
> Morten Rasmussen (1):
> sched: Add over-utilization/tipping point indicator
>
> Quentin Perret (13):
> sched: Relocate arch_scale_cpu_capacity
> sched/cpufreq: Factor out utilization to frequency mapping
> PM: Introduce an Energy Model management framework
> PM / EM: Expose the Energy Model in sysfs
> sched/topology: Reference the Energy Model of CPUs when available
> sched/topology: Lowest CPU asymmetry sched_domain level pointer
> sched/topology: Introduce sched_energy_present static key
> sched/fair: Clean-up update_sg_lb_stats parameters
> sched/cpufreq: Refactor the utilization aggregation method
> sched/fair: Introduce an energy estimation helper function
> sched/fair: Select an energy-efficient CPU on task wake-up
> sched/topology: Make Energy Aware Scheduling depend on schedutil
> OPTIONAL: cpufreq: dt: Register an Energy Model
>
> drivers/cpufreq/cpufreq-dt.c | 45 ++++-
> drivers/cpufreq/cpufreq.c | 4 +
> include/linux/cpufreq.h | 1 +
> include/linux/energy_model.h | 162 +++++++++++++++++
> include/linux/sched/cpufreq.h | 6 +
> include/linux/sched/topology.h | 19 ++
> kernel/power/Kconfig | 15 ++
> kernel/power/Makefile | 2 +
> kernel/power/energy_model.c | 289 +++++++++++++++++++++++++++++
> kernel/sched/cpufreq_schedutil.c | 136 ++++++++++----
> kernel/sched/fair.c | 301 ++++++++++++++++++++++++++++---
> kernel/sched/sched.h | 65 ++++---
> kernel/sched/topology.c | 231 +++++++++++++++++++++++-
> 13 files changed, 1195 insertions(+), 81 deletions(-)
> create mode 100644 include/linux/energy_model.h
> create mode 100644 kernel/power/energy_model.c

I have looked at all of the patches in the series now and I don't really
have any major objections from the cpufreq (and generally PM) perspective.

There are some points of concern here and there, but they are mostly details
and things I would do differently, but as a whole this looks mostly OK to me.

I will reply to the individual patches where there are issues in my view.

Thanks,
Rafael


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