Currently: rewrite of CPU_Frequency_Scaling#CPU_frequency_driver
CPU frequency scaling enables the operating system to scale the CPU speed 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.
- 1 Introduction
- 2 The CPU frequency driver
- 3 Scaling governors
- 4 Fine-tuning governors
- 5 User-space tools
- 6 Troubleshooting
- 7 External Links
Configuration of CPU frequency scaling is done through three mechanics:
- The CPU frequency driver
- The scaling governor
- Fine-tuning of the governor through user-space tools
Since kernel 3.4 the necessary CPU frequency driver modules are loaded automatically and the recommended ondemand governor is enabled by default. This leaves the user with a functional, on-demand, CPU frequency scaling setup requiring no intervention from user-space.
User-space applications like cpupower, acpid, laptop-mode-tools, or GUI tools provided for your desktop environment, may still be used for advanced configuration.
The CPU frequency driver
In order for frequency scaling to work properly, the operating system must first know the CPU(s) specification. To accomplish this, a kernel module must be loaded that can read and manage the CPU p(ower)-states.
- CPUFreq driver which utilizes the ACPI Processor Performance States. This driver also supports Intel Enhanced SpeedStep (previously supported by the deprecated speedstep-centrino module).
- CPUFreq driver for certain mobile Intel Pentium III (Coppermine), all mobile Intel Pentium III-M (Tualatin) and all mobile Intel Pentium 4 P4-M on systems which have an Intel ICH2, ICH3 or ICH4 southbridge.
- CPUFreq driver for certain mobile Intel Pentium III (Coppermine), all mobile Intel Pentium III-M (Tualatin) on systems which have an Intel 440BX/ZX/MX southbridge.
- CPUFreq driver for K8/K10 Athlon64/Opteron/Phenom processors.
- CPUFreq driver for mobile AMD K7 mobile processors.
- CPUFreq driver for FSB changing on nVidia nForce2 platforms. (AMD K7, Socket A)
- This driver supports Processor Clocking Control interface by Hewlett-Packard and Microsoft Corporation which is useful on some Proliant servers.
- 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.
You can check if the appropriate module for your processor has been loaded with
lsmod, part of .
[user@host ~]$ dmesg | grep powernow [ 4.748680] powernow-k8: Found 1 AMD Phenom(tm) II X4 955 Processor (4 cpu cores) (version 2.20.00) [ 4.748709] powernow-k8: 0 : pstate 0 (3200 MHz) [ 4.748710] powernow-k8: 1 : pstate 1 (2500 MHz) [ 4.748711] powernow-k8: 2 : pstate 2 (2100 MHz) [ 4.748712] powernow-k8: 3 : pstate 3 (800 MHz)
Governors can be thought of as pre-configured power schemes for the CPU, they alter the CPU's predefined power state that is exposed through the CPU frequency scaling driver. These governors can be built into the kernel or be made available as separate modules which must be loaded to be seen by user space applications. Users can load as many governors as desired, only one will be active on a CPU at any given time.
For Desktops and most systems, the ondemand governor can provide the best compromise between heat emission, power consumption, performance, and manageability. For Laptops or other mobile systems, the conservative governor can provide significant savings in power consumption.
cpufreq_ondemandgovernor is activated by default.
- Dynamically switches between the CPU(s) available clock speeds based on system load
- The performance governor runs the CPU(s) at maximum clock speed
- Similar to
ondemand, but the CPU(s) clock speed switches gradually through all its available frequencies based on system load
- Runs the CPU(s) at minimum speed
- Manually configured clock speeds by user
The governors ondemand and performance are built into the kernel and do not need to be loaded as modules to be activated. If you want to use one of the other governors, you have to load them with modprobe. For example:
# modprobe cpufreq_powersave # modprobe cpufreq_userspace
You can check the available governors:
The currently active governor can also be determined:
Improving on-demand performance
With the out-of-the-box configuration, the ondemand governor will result in a slight but measurable and noticeable loss of performance. It will not clock up the CPU when it is at lower than 95% usage, and will sample the usage at the fastest possible frequency when at full clock speeds in order to clock back down as soon as possible.
Tuning the governor for your needs can reduce the performance loss to the point where it is negligible/non-existent if you are willing to lose a lot of the power savings. If you just want to save power while idle, lowering the up_threshold to 11% and raising the sample_down_factor by an order of magnitude can accomplish this.
Tunables are available in
/sys/devices/system/cpu/cpufreq/ondemand/ once the governor is loaded and selected and can be preserved at reboot using
Starting the cpupower daemon in the background (i.e. with an
/etc/rc.conf) will likely cause
/etc/rc.local to be processed before the cpupower daemon has a chance to change the governor. Make sure that the cpupower daemon script will have finished running before the tunables are set. Example:
(sleep 10 && echo -n 25 > /sys/devices/system/cpu/cpufreq/ondemand/up_threshold) &
Changing the on-demand governor's threshold
On-demand governor sampling_down_factor
Tuning conservative governor
Changing the CPU frequency scaling properties from the defaults set during boot can be done through several user-space tools.