POWER-CALIBRATE(8) | System Manager's Manual | POWER-CALIBRATE(8) |
power-calibrate - a tool to calibrate power consumption.
power-calibrate [options]
Power-calibrate calibrates the power consumption of a mobile device that has a battery power source or a recent Intel processor using the RAPL (Running Average Power Limit) interface. It will attempt to calculate the power usage of 1% of CPU utiltisation. If perf is available, power-calibrate will also attempt to estimate the power consumption of 1 CPU cycle and 1 CPU instruction (one may need to run as root or set /proc/sys/kernel/perf_event_paranoid to below 2 for this to work).
power-calibrate options are as follow:
During the testing/data sampling phase, power-calibrate will show the following information:
Column | Description |
CPU load | The loading of each CPU in terms of % utilisation for each CPU and the number of CPUs being loaded. For example, 80% x 2 means 2 CPUs each at 80% utilisation and for an 8 CPU machine this is effectivly 20% total utilisation since 6 other CPUs are idle. |
User | % load of the CPU consumed by user space programs. |
Sys | % load of the CPU consumed by the kernel. |
Idle | % idle time of the CPU. |
Ctxt/s | Context switches per second. |
IRQ/s | Interrupts per second. |
Ops/s | Bogo operations per second. This is the number of compute operations per second (computation of a random number using a 32 bit multiple-with-carry). |
Watts | Power used in Watts. |
The following is an example of the output for the -c option:
Power (Watts) = (% CPU load * 0.424631) + 10.131925 Each 1% CPU load is about 424.63 mW (about 37.87 mA @ 11.21 V) Coefficient of determination R^2 = 0.999015 (very strong) Power (Watts) = (bogo op * 4.267444e-08) + 10.666399 1 bogo ops is about 42.67 nW (about 3.81 nA @ 11.21 V) Coefficient of determination R^2 = 0.999460 (very strong)
Power-calibrate will determine a suitable way of calculating the power consumed based on the CPU load and an estimation of the amount of power consumed for each 1% of CPU loading.
The Coefficient of determination shows how close the results are to the measured data; a perfect match results in R^2 = 1.0 and this will drop towards zero as the accuracy drops. Power-calibrate will annotate R^2 to provide some hint on how strong the relationship between the raw data and the linear estimation of power consumption.
An estimate of the power used per bogo-op is estimated, that is, the power consumed to perform 1 computation of a random number using a 64 bit multiple-with-carry. This can be used a very naïve compute benchmarking metric when comparing different processors or power configurations.
power-calibrate -d 60 -s 5 -n 0,1 -r 200 -p
power-calibrate -n 0,2,1,3
1 CPU: | CPU 0 |
2 CPUs: | CPUs 0,2 |
3 CPUs: | CPUs 0,2,1 |
4 CPUs: | CPUs 0,2,1,3 |
power-calibrate -R -r 10 -d 5 -s 21 -n 0 -p
Power-calibrate attempts to find a linear relationship between power consumed and the CPU loading, bogo operations per second and the context switching. This is not necessarily the case for all processors. If the R^2 coefficient of determination is not close to 1.0 then this indicates there may not be a linear relationship.
Power-calibrate relies on the battery interface to provide timely stats on battery power consumption and this will vary from device to device. Software or firmware may adjust the battery readings from gas-gauges and even re-calibrate the values during battery drain hence skewing the final results from power-calibrate. Batteries also show a non-linear discharge characteristic, so running power-calibrate on low battery charge is not advised.
Processors with hyperthreading or non-uniform processing performance will skew the bogo-ops calculations since different logical CPUs will vary in processing throughput.
In general, the more samples gathered, the more accurate the final results will be, however, the calibration will take longer to run. With more samples, the tendency to get a few random outliers in the samples may increase, and that may affect the final R^2 coefficient of determination.
Power-calibrate is a power estimation tool, so results will vary between different runs. It is not meant to be an accurate substitute for power measurements using a high precision multimeter.
power-calibrate was written by Colin King <colin.king@canonical.com>
This manual page was written by Colin King <colin.king@canonical.com>, for the Ubuntu project (but may be used by others).
Copyright © 2014-2021 Canonical Ltd.
This is free software; see the source for copying conditions. There is NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE.
15 April, 2017 |