CPU frequency scaling
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CPU frequency scaling enables the operating system to scale the CPU frequency up or down in order to save power. CPU frequencies can be scaled automatically depending on the system load, in response to ACPI events, or manually by userspace programs.
CPU frequency scaling is implemented in Linux kernel, the infrastructure is called cpufreq. Since kernel 3.4 the necessary modules are loaded automatically and the recommended ondemand governor is enabled by default. However, userspace tools like cpupower, acpid, Laptop Mode Tools, or GUI tools provided for your desktop environment, may still be used for advanced configuration.
Contents
Userspace tools
cpupower
cpupower is a set of userspace utilities designed to assist with CPU frequency scaling. The package is not required to use scaling, but is highly recommended because it provides useful command-line utilities and a systemd service to change the governor at boot.
The configuration file for cpupower is located in /etc/default/cpupower
. This configuration file is read by a bash script in /usr/lib/systemd/scripts/cpupower
which is activated by systemd with cpupower.service
. You may want to enable cpupower.service
to start at boot.
GNOME Shell extensions
Several frontends for GNOME Shell are available in the AUR:
Granola
GranolaAUR (available in the AUR) is a daemon that monitors the cpu usage and uses the userspace governor to lessen power usage without any noticeable difference in performance. The default settings will work for most setups.
To test if it works, run:
$ cat /sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq
and check that the CPU frequency is below maximum.
CPU frequency driver
- As of kernel 3.4, the native CPU module is loaded automatically.
- Starting with kernel 3.9, the new
pstate
power scaling driver is used automatically for modern Intel CPUs instead of the other drivers below. This driver takes priority over other drivers and in fact is inbuilt as opposed to being a module. This driver is currently automatically used for Sandy Bridge and Ivy Bridge type CPUs. If you encounter a problem while using this driver, addintel_pstate=disable
to your kernel line. You can use the same user space utilities with this driver but cannot control it. - Even P State behavior mentioned above can be influenced with
/sys/devices/system/cpu/intel_pstate
, e.g. Intel Turbo Boost can be deactivated with# echo 1 > /sys/devices/system/cpu/intel_pstate/no_turbo
for keeping CPU-Temperatures low. - Additional control for modern Intel CPUs is available with the Linux Thermal Daemon (available as thermaldAUR in the AUR), which proactively controls thermal using P-states, T-states, and the Intel power clamp driver.
cpupower requires modules to know the limits of the native CPU:
Module | Description |
---|---|
acpi-cpufreq | CPUFreq driver which utilizes the ACPI Processor Performance States. This driver also supports Intel Enhanced SpeedStep (previously supported by the deprecated speedstep-centrino module). |
speedstep-lib | CPUFreq drive for Intel speedstep enabled processors (mostly atoms and older pentiums (< 3)) |
powernow-k8 | CPUFreq driver for K8/K10 Athlon64/Opteron/Phenom processors. Deprecated since linux 3.7 - Use acpi_cpufreq. |
pcc-cpufreq | This driver supports Processor Clocking Control interface by Hewlett-Packard and Microsoft Corporation which is useful on some Proliant servers. |
p4-clockmod | CPUFreq driver for Intel Pentium 4 / Xeon / Celeron processors. When enabled it will lower CPU temperature by skipping clocks. You probably want to use a Speedstep driver instead. |
To see a full list of available modules, run:
$ ls /lib/modules/$(uname -r)/kernel/drivers/cpufreq/
Load the appropriate module (see Kernel modules for details). Once the appropriate cpufreq driver is loaded, detailed information about the CPU(s) can be displayed by running
$ cpupower frequency-info
Setting maximum and minimum frequencies
In rare cases, it may be necessary to manually set maximum and minimum frequencies.
To set the maximum clock frequency (clock_freq is a clock frequency with units: GHz, MHz):
# cpupower frequency-set -u clock_freq
To set the minimum clock frequency:
# cpupower frequency-set -d clock_freq
To set the CPU to run at a specified frequency:
# cpupower frequency-set -f clock_freq
- To adjust for only a single CPU core, append
-c core_number
. - The governor, maximum and minimum frequencies can be set in
/etc/default/cpupower
.
Scaling governors
Governors (see table below) are power schemes for the cpu. Only one may be active at a time. For details, see the kernel documentation in the kernel source.
Governor | Description |
---|---|
ondemand | Dynamically switch between CPU(s) available if at 95% cpu load |
performance | Run the cpu at max frequency |
conservative | Dynamically switch between CPU(s) available if at 75% load |
powersave | Run the cpu at the minimum frequency |
userspace | Run the cpu at user specified frequencies |
Depending on the scaling driver, one of these governors will be loaded by default:
-
ondemand
for AMD and older Intel CPU. -
powersave
for Intel Sandybridge and newer CPU.
To activate a particular governor, run:
# cpupower frequency-set -g governor
- To adjust for only a single CPU core, append
-c core_number
to the command above. - Activating a governor requires that specific kernel module (named
cpufreq_governor
) is loaded. As of kernel 3.4, these modules are loaded automatically.
Alternatively, you can activate a governor on every available CPU manually:
# echo governor | tee /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor >/dev/null
$ watch grep \"cpu MHz\" /proc/cpuinfo
Tuning the ondemand governor
See the kernel documentation for details.
Switching threshold
To set the threshold for stepping up to another frequency:
# echo -n percent > /sys/devices/system/cpu/cpufreq/<governor>/up_threshold
To set the threshold for stepping down to another frequency:
# echo -n percent > /sys/devices/system/cpu/cpufreq/<governor>/down_threshold
Sampling rate
The sampling rate determines how frequently the governor checks to tune the CPU. Setting sampling_down_factor
greater than 1 improves performance by reducing the overhead of load evaluation and keeping the CPU at its highest clock frequency due to high load. This tunable has no effect on behavior at lower CPU frequencies/loads.
To read the value (default = 1), run:
$ cat /sys/devices/system/cpu/cpufreq/ondemand/sampling_down_factor
To set the value, run:
# echo -n value > /sys/devices/system/cpu/cpufreq/ondemand/sampling_down_factor
Interaction with ACPI events
Users may configure scaling governors to switch automatically based on different ACPI events such as connecting the AC adapter or closing a laptop lid. A quick example is given below, however it may be worth reading full article on acpid.
Events are defined in /etc/acpi/handler.sh
. If the acpid package is installed, the file should already exist and be executable. For example, to change the scaling governor from performance
to conservative
when the AC adapter is disconnected and change it back if reconnected:
/etc/acpi/handler.sh
[...] ac_adapter) case "$2" in AC*) case "$4" in 00000000) echo "conservative" >/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor echo -n $minspeed >$setspeed #/etc/laptop-mode/laptop-mode start ;; 00000001) echo "performance" >/sys/devices/system/cpu/cpu0/cpufreq/scaling_governor echo -n $maxspeed >$setspeed #/etc/laptop-mode/laptop-mode stop ;; esac ;; *) logger "ACPI action undefined: $2" ;; esac ;; [...]
Privilege granting under GNOME
/usr/share/polkit-1/actions/org.gnome.cpufreqselector.policy
the <defaults> elements according to your needs and the polkit manual [1].GNOME has a nice applet to change the governor on the fly. To use it without the need to enter the root password, simply create following file:
/var/lib/polkit-1/localauthority/50-local.d/org.gnome.cpufreqselector.pkla
[org.gnome.cpufreqselector] Identity=unix-user:user Action=org.gnome.cpufreqselector ResultAny=no ResultInactive=no ResultActive=yes
Where the word user is replaced with the username of interest.
The desktop-privilegesAUR package in the AUR contains a similar .pkla
file for authorizing all users of the power
group to change the governor.
Troubleshooting
- Some applications, like ntop, do not respond well to automatic frequency scaling. In the case of ntop it can result in segmentation faults and lots of lost information as even the
on-demand
governor cannot change the frequency quickly enough when a lot of packets suddenly arrive at the monitored network interface that cannot be handled by the current processor speed.
- Some CPU's may suffer from poor performance with the default settings of the
on-demand
governor (e.g. flash videos not playing smoothly or stuttering window animations). Instead of completely disabling frequency scaling to resolve these issues, the aggressiveness of frequency scaling can be increased by lowering the up_threshold sysctl variable for each CPU. See how to change the on-demand governor's threshold.
- Sometimes the on-demand governor may not throttle to the maximum frequency but one step below. This can be solved by setting max_freq value slightly higher than the real maximum. For example, if frequency range of the CPU is from 2.00 GHz to 3.00 GHz, setting max_freq to 3.01 GHz can be a good idea.
- Some combinations of ALSA drivers and sound chips may cause audio skipping as the governor changes between frequencies, switching back to a non-changing governor seems to stop the audio skipping.
BIOS frequency limitation
Some CPU/BIOS configurations may have difficulties to scale to the maximum frequency or scale to higher frequencies at all. This is most likely caused by BIOS events telling the OS to limit the frequency resulting in /sys/devices/system/cpu/cpu0/cpufreq/bios_limit
set to a lower value.
Either you just made a specific Setting in the BIOS Setup Utility, (Frequency, Thermal Management, etc.) you can blame a buggy/outdated BIOS or the BIOS might have a serious reason for throttling the CPU on it's own.
Reasons like that can be (assuming your machine's a notebook) that the battery is removed (or near death) so you're on AC-power only. In this case a weak AC-source might not supply enough electricity to fulfill extreme peak demands by the overall system and as there is no battery to assist this could lead to data loss, data corruption or in worst case even hardware damage!
Not all BIOS'es limit the CPU-Frequency in this case, but for example most IBM/Lenovo Thinkpads do. Refer to thinkwiki for more thinkpad related info on this topic.
If you checked there's not just an odd BIOS setting and you know what you're doing you can make the Kernel ignore these BIOS-limitations.
A special parameter has to be passed to the processor module.
For trying this temporarily change the value in /sys/module/processor/parameters/ignore_ppc
from 0
to 1
.
For setting it permanent refer to Kernel modules or just read on.
Add processor.ignore_ppc=1
to your kernel boot line or create
/etc/modprobe.d/ignore_ppc.conf
# If the frequency of your machine gets wrongly limited by BIOS, this should help options processor ignore_ppc=1