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SubjectRe: cpufreq: intel_pstate: map utilization into the pstate range
On Mon, Dec 13, 2021 at 11:52 PM Julia Lawall <julia.lawall@inria.fr> wrote:
>
> With HWP, intel_cpufreq_adjust_perf takes the utilization, scales it
> between 0 and the capacity, and then maps everything below min_pstate to
> the lowest frequency.

Well, it is not just intel_pstate with HWP. This is how schedutil
works in general; see get_next_freq() in there.

> On my Intel Xeon Gold 6130 and Intel Xeon Gold
> 5218, this means that more than the bottom quarter of utilizations are all
> mapped to the lowest frequency. Running slowly doesn't necessarily save
> energy, because it takes more time.

This is true, but the layout of the available range of performance
values is a property of the processor, not a driver issue.

Moreover, the role of the driver is not to decide how to respond to
the given utilization value, that is the role of the governor. The
driver is expected to do what it is asked for by the governor.

> This patch scales the utilization
> (target_perf) between the min pstate and the cap pstate instead.
>
> On the DaCapo (Java) benchmarks and on a few exmples of kernel compilation
> (based on make defconfig), on two-socket machines with the above CPUs, the
> performance is always the same or better as Linux v5.15, and the CPU and
> RAM energy consumption is likewise always the same or better (one
> exception: zxing-eval on the 5128 uses a little more energy).
>
> 6130:
>
> Performance (sec):
> v5.15 with this patch (improvement)
> avrora 77.5773 56.4090 (1.38)
> batik-eval 113.1173 112.4135 (1.01)
> biojava-eval 196.6533 196.7943 (1.00)
> cassandra-eval 62.6638 59.2800 (1.06)
> eclipse-eval 218.5988 210.0139 (1.04)
> fop 3.5537 3.4281 (1.04)
> graphchi-evalN 13.8668 10.3411 (1.34)
> h2 75.5018 62.2993 (1.21)
> jme-eval 94.9531 89.5722 (1.06)
> jython 23.5789 23.0603 (1.02)
> kafka-eval 60.2784 59.2057 (1.02)
> luindex 5.3537 5.1190 (1.05)
> lusearch-fix 3.5956 3.3628 (1.07)
> lusearch 3.5396 3.5204 (1.01)
> pmd 13.3505 10.8795 (1.23)
> sunflow 7.5932 7.4899 (1.01)
> tomcat-eval 39.6568 31.4844 (1.26)
> tradebeans 118.9918 99.3932 (1.20)
> tradesoap-eval 56.9113 54.7567 (1.04)
> tradesoap 50.7779 44.5169 (1.14)
> xalan 5.0711 4.8879 (1.04)
> zxing-eval 10.5532 10.2435 (1.03)
>
> make 45.5977 45.3454 (1.01)
> make sched 3.4318 3.3450 (1.03)
> make fair.o 2.9611 2.8464 (1.04)
>
> CPU energy consumption (J):
>
> avrora 4740.4813 3585.5843 (1.32)
> batik-eval 13361.34 13278.74 (1.01)
> biojava-eval 21608.70 21652.94 (1.00)
> cassandra-eval 3037.6907 2891.8117 (1.05)
> eclipse-eval 23528.15 23198.36 (1.01)
> fop 455.7363 441.6443 (1.03)
> graphchi-eval 999.9220 971.5633 (1.03)
> h2 5451.3093 4929.8383 (1.11)
> jme-eval 5343.7790 5143.8463 (1.04)
> jython 2685.3790 2623.1950 (1.02)
> kafka-eval 2715.6047 2548.7220 (1.07)
> luindex 597.7587 571.0387 (1.05)
> lusearch-fix 714.0340 692.4727 (1.03)
> lusearch 718.4863 704.3650 (1.02)
> pmd 1627.6377 1497.5437 (1.09)
> sunflow 1563.5173 1514.6013 (1.03)
> tomcat-eval 4740.1603 4539.1503 (1.04)
> tradebeans 8331.2260 7482.3737 (1.11)
> tradesoap-eval 6610.1040 6426.7077 (1.03)
> tradesoap 5641.9300 5544.3517 (1.02)
> xalan 1072.0363 1065.7957 (1.01)
> zxing-eval 2200.1883 2174.1137 (1.01)
>
> make 9788.9290 9777.5823 (1.00)
> make sched 501.0770 495.0600 (1.01)
> make fair.o 363.4570 352.8670 (1.03)
>
> RAM energy consumption (J):
>
> avrora 2508.5553 1844.5977 (1.36)
> batik-eval 5627.3327 5603.1820 (1.00)
> biojava-eval 9371.1417 9351.1543 (1.00)
> cassandra-eval 1398.0567 1289.8317 (1.08)
> eclipse-eval 10193.28 9952.3543 (1.02)
> fop 189.1927 184.0620 (1.03)
> graphchi-eval 539.3947 447.4557 (1.21)
> h2 2771.0573 2432.2587 (1.14)
> jme-eval 2702.4030 2504.0783 (1.08)
> jython 1135.7317 1114.5190 (1.02)
> kafka-eval 1320.6840 1220.6867 (1.08)
> luindex 246.6597 237.1593 (1.04)
> lusearch-fix 294.4317 282.2193 (1.04)
> lusearch 295.5400 284.3890 (1.04)
> pmd 721.7020 643.1280 (1.12)
> sunflow 568.6710 549.3780 (1.04)
> tomcat-eval 2305.8857 1995.8843 (1.16)
> tradebeans 4323.5243 3749.7033 (1.15)
> tradesoap-eval 2862.8047 2783.5733 (1.03)
> tradesoap 2717.3900 2519.9567 (1.08)
> xalan 430.6100 418.5797 (1.03)
> zxing-eval 732.2507 710.9423 (1.03)
>
> make 3362.8837 3356.2587 (1.00)
> make sched 191.7917 188.8863 (1.02)
> make fair.o 149.6850 145.8273 (1.03)
>
> 5128:
>
> Performance (sec):
>
> avrora 62.0511 43.9240 (1.41)
> batik-eval 111.6393 110.1999 (1.01)
> biojava-eval 241.4400 238.7388 (1.01)
> cassandra-eval 62.0185 58.9052 (1.05)
> eclipse-eval 240.9488 232.8944 (1.03)
> fop 3.8318 3.6408 (1.05)
> graphchi-eval 13.3911 10.4670 (1.28)
> h2 75.3658 62.8218 (1.20)
> jme-eval 95.0131 89.5635 (1.06)
> jython 28.1397 27.6802 (1.02)
> kafka-eval 60.4817 59.4780 (1.02)
> luindex 5.1994 4.9587 (1.05)
> lusearch-fix 3.8448 3.6519 (1.05)
> lusearch 3.8928 3.7068 (1.05)
> pmd 13.0990 10.8008 (1.21)
> sunflow 7.7983 7.8569 (0.99)
> tomcat-eval 39.2064 31.7629 (1.23)
> tradebeans 120.8676 100.9113 (1.20)
> tradesoap-eval 65.5552 63.3493 (1.03)
> xalan 5.4463 5.3576 (1.02)
> zxing-eval 9.8611 9.9692 (0.99)
>
> make 43.1852 43.1285 (1.00)
> make sched 3.2181 3.1706 (1.01)
> make fair.o 2.7584 2.6615 (1.04)
>
> CPU energy consumption (J):
>
> avrora 3979.5297 3049.3347 (1.31)
> batik-eval 12339.59 12413.41 (0.99)
> biojava-eval 23935.18 23931.61 (1.00)
> cassandra-eval 3552.2753 3380.4860 (1.05)
> eclipse-eval 24186.38 24076.57 (1.00)
> fop 441.0607 442.9647 (1.00)
> graphchi-eval 1021.1323 964.4800 (1.06)
> h2 5484.9667 4901.9067 (1.12)
> jme-eval 6167.5287 5909.5767 (1.04)
> jython 2956.7150 2986.3680 (0.99)
> kafka-eval 3229.9333 3197.7743 (1.01)
> luindex 537.0007 533.9980 (1.01)
> lusearch-fix 720.1830 699.2343 (1.03)
> lusearch 708.8190 700.7023 (1.01)
> pmd 1539.7463 1398.1850 (1.10)
> sunflow 1533.3367 1497.2863 (1.02)
> tomcat-eval 4551.9333 4289.2553 (1.06)
> tradebeans 8527.2623 7570.2933 (1.13)
> tradesoap-eval 6849.3213 6750.9687 (1.01)
> xalan 1013.2747 1019.1217 (0.99)
> zxing-eval 1852.9077 1943.1753 (0.95)
>
> make 9257.5547 9262.5993 (1.00)
> make sched 438.7123 435.9133 (1.01)
> make fair.o 315.6550 312.2280 (1.01)
>
> RAM energy consumption (J):
>
> avrora 16309.86 11458.08 (1.42)
> batik-eval 30107.11 29891.58 (1.01)
> biojava-eval 64290.01 63941.71 (1.01)
> cassandra-eval 13240.04 12403.19 (1.07)
> eclipse-eval 64188.41 62008.35 (1.04)
> fop 1052.2457 996.0907 (1.06)
> graphchi-eval 3622.5130 2856.1983 (1.27)
> h2 19965.58 16624.08 (1.20)
> jme-eval 21777.02 20211.06 (1.08)
> jython 7515.3843 7396.6437 (1.02)
> kafka-eval 12868.39 12577.32 (1.02)
> luindex 1387.7263 1328.8073 (1.04)
> lusearch-fix 1313.1220 1238.8813 (1.06)
> lusearch 1303.5597 1245.4130 (1.05)
> pmd 3650.6697 3049.8567 (1.20)
> sunflow 2460.8907 2380.3773 (1.03)
> tomcat-eval 11199.61 9232.8367 (1.21)
> tradebeans 32385.99 26901.40 (1.20)
> tradesoap-eval 17691.01 17006.95 (1.04)
> xalan 1783.7290 1735.1937 (1.03)
> zxing-eval 2812.9710 2952.2933 (0.95)
>
> make 13247.47 13258.64 (1.00)
> make sched 885.7790 877.1667 (1.01)
> make fair.o 741.2473 723.6313 (1.02)

So the number look better after the change, because it makes the
driver ask the hardware for slightly more performance than it is asked
for by the governor.

>
> Signed-off-by: Julia Lawall <julia.lawall@inria.fr>
>
> ---
>
> min_pstate is defined in terms of cpu->pstate.min_pstate and
> cpu->min_perf_ratio. Maybe one of these values should be used instead.
> Likewise, perhaps cap_pstate should be max_pstate?

I'm not sure if I understand this remark. cap_pstate is the max
performance level of the CPU and max_pstate is the current limit
imposed by the framework. They are different things.

>
> diff --git a/drivers/cpufreq/intel_pstate.c b/drivers/cpufreq/intel_pstate.c
> index 8c176b7dae41..ba6a48959754 100644
> --- a/drivers/cpufreq/intel_pstate.c
> +++ b/drivers/cpufreq/intel_pstate.c
> @@ -2789,10 +2789,6 @@ static void intel_cpufreq_adjust_perf(unsigned int cpunum,
>
> /* Optimization: Avoid unnecessary divisions. */
>
> - target_pstate = cap_pstate;
> - if (target_perf < capacity)
> - target_pstate = DIV_ROUND_UP(cap_pstate * target_perf, capacity);
> -
> min_pstate = cap_pstate;
> if (min_perf < capacity)
> min_pstate = DIV_ROUND_UP(cap_pstate * min_perf, capacity);
> @@ -2807,6 +2803,10 @@ static void intel_cpufreq_adjust_perf(unsigned int cpunum,
> if (max_pstate < min_pstate)
> max_pstate = min_pstate;
>
> + target_pstate = cap_pstate;
> + if (target_perf < capacity)
> + target_pstate = DIV_ROUND_UP((cap_pstate - min_pstate) * target_perf, capacity) + min_pstate;

So the driver is asked by the governor to deliver the fraction of the
max performance (cap_pstate) given by the target_perf / capacity ratio
with the floor given by min_perf / capacity. It cannot turn around
and do something else, because it thinks it knows better.

> +
> target_pstate = clamp_t(int, target_pstate, min_pstate, max_pstate);
>
> intel_cpufreq_hwp_update(cpu, min_pstate, max_pstate, target_pstate, true);

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