When I had Windows 8.1, there was a power option for "High Performance" which allowed higher performance at the cost of power supply.

Is there a way to set my power option to "High Performance" on Linux?

6 Answers 6


To view available speed governors use this command:

$ cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_governors 
performance powersave

If you do have more than one governor you can check what is currently in use with this command:

$ cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor

To change your processor to performance mode use:

$ echo performance | sudo tee /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor

You will then notice CPU% utilization drop by about 5% but also notice speed will increase from about 1000 MHz to 3000 MHz and temperatures will spike by ~10 degree, depending on your processor:

CPU Performance mode.gif

I have noticed that even when set to powersave mode (as I always use) when Ubuntu first boots it runs in performance mode for 90 seconds before it eventually kicks into powersave mode.

None-the-less after manually setting the governor to performance mode using the appropriate command above. It has stayed in performance mode for 10 minutes now as confirmed by using the appropriate command above and doubly confirmed by conky display above.

I left the governor set on performance for 30 minutes and it worked just fine. It might interest some readers what the conky display looks like when switching off of performance governor back to the default powersave governor:

CPU powersave.gif

CPU% utilization has spiked by 5%, but CPU frequency has dropped by 1500 MHz and temperature has decreased by about 10 degrees. Overall I think powersave mode is the best for most configurations.

Conky Code

April 12, 2019 - Someone requested conky code so I'm including today's version. The refresh rate is set at 2.5 seconds today whereas in .gifs it's probably 1 second or .75 second. I've edited the code a bit here because mine is setup for three monitors and most people will have one monitor.

The storage section is a little tricky. You need to change the device names to your own and there are if tests if a partition isn't mounted shows system information like cache and buffers.

override_utf8_locale yes
use_xft yes
xftfont ubuntu:size=10.5
xftalpha 0.5
uppercase no
no_buffers yes              # Subtract cached and buffered ram from memory usage.
short_units yes             # Use "G" instead of "GiB"

text_buffer_size 2048
update_interval 2.5          # change to .001 for 1000 times per second stress test
own_window_class Conky
own_window yes
own_window_type dock
own_window_transparent no
own_window_argb_visual yes
own_window_argb_value 145  # semi-transparent
own_window_hints undecorated,below,sticky,skip_taskbar,skip_pager
double_buffer yes
minimum_size 400
maximum_width 400
alignment top_right

draw_shades yes
# off-white
default_color ECEAE4
# blue
color1 1EB5FF
# light blue
color2 30DDFB
# dark blue
color3 0090ff
# lime
color4 98FF76
default_shade_color 000000

draw_outline no
draw_borders no
stippled_borders 0

# Distro     |
${color}Today is:${color green}$alignr${time %A,}$alignr ${time %e %B %G}
${color}Distribution:${color green}$alignr ${execi 6300 cat /etc/issue.net} $machine
${color}Kernel:$alignr${color green} $kernel
${color orange}${voffset 2}${hr 1}
# i7-6700 CPU|
${color2}${voffset 5}Intel® i-7 6700HQ 3.5 GHz: ${color1}@  ${color green}${freq} MHz
${color}${goto 13}CPU 0 ${goto 81}${color green}${cpu cpu1}% ${goto 131}${color3}${cpubar cpu1 18}
#${cpugauge cpu1 20,40}
#${cpugraph 1 15,200 555555 AAAAAA -l}
${color}${goto 13}CPU 1 ${goto 81}${color green}${cpu cpu2}% ${goto 131}${color3}${cpubar cpu2 18}
${color}${goto 13}CPU 2 ${goto 81}${color green}${cpu cpu3}% ${goto 131}${color3}${cpubar cpu3 18}
${color}${goto 13}CPU 3 ${goto 81}${color green}${cpu cpu4}% ${goto 131}${color3}${cpubar cpu4 18}
${color}${goto 13}CPU 4 ${goto 81}${color green}${cpu cpu5}% ${goto 131}${color3}${cpubar cpu5 18}
${color}${goto 13}CPU 5 ${goto 81}${color green}${cpu cpu6}% ${goto 131}${color3}${cpubar cpu6 18}
${color}${goto 13}CPU 6 ${goto 81}${color green}${cpu cpu7}% ${goto 131}${color3}${cpubar cpu7 18}
${color}${goto 13}CPU 7 ${goto 81}${color green}${cpu cpu8}% ${goto 131}${color3}${cpubar cpu8 18}
# Temperature|
#${color1}All CPUs ${color green}${cpu}% ${goto 131}${color1}Temp: ${color green}${execpi .001 cat /sys/class/thermal/thermal_zone7/temp | cut -c1-2}°C ${alignr}${color1}Up: ${color green}$uptime
# Next line is for kernel >= 4.13.0-36-generic
${color1}All CPUs ${color green}${cpu}% ${goto 131}${color1}Temp: ${color green}${hwmon 1 temp 1}°C ${alignr}${color1}Up: ${color green}$uptime
# Next line is for temperature with Kerenel 4.4
#${color1}All CPUs ${color green}${cpu}% ${goto 131}${color1}Temp: ${color green}${hwmon 0 temp 1}°C ${alignr}${color1}Up: ${color green}$uptime
${color green}$running_processes ${color1}running of ${color green}$processes ${color1}loaded processes.
${color1}Load Average 1-5-15 minutes: ${alignr}${color green}${execpi .001 (awk '{printf "%s/", $1}' /proc/loadavg; grep -c processor /proc/cpuinfo;) | bc -l | cut -c1-4} ${execpi .001 (awk '{printf "%s/", $2}' /proc/loadavg; grep -c processor /proc/cpuinfo;) | bc -l | cut -c1-4} ${execpi .001 (awk '{printf "%s/", $3}' /proc/loadavg; grep -c processor /proc/cpuinfo;) | bc -l | cut -c1-4}
# Intel iGPU |
${color orange}${hr 1}${if_match "intel" == "${execpi 99999 prime-select query}"}
${color2}${voffset 5}Intel® Skylake GT2 HD 530 iGPU @${alignr}${color green}${execpi .001 (cat /sys/class/drm/card1/gt_cur_freq_mhz)} MHz
${color}${goto 13}Min. Freq:${goto 120}${color green}${execpi .001 (cat /sys/class/drm/card1/gt_min_freq_mhz)} MHz${color}${goto 210}Max. Freq:${alignr}${color green}${execpi .001 (cat /sys/class/drm/card1/gt_max_freq_mhz)} MHz
${color orange}${hr 1}${else}
# Nvidia GPU |
${color2}${voffset 5}${execpi .001 (nvidia-smi --query-gpu=gpu_name --format=csv,noheader)} ${color1}@ ${color green}${execpi .001 (nvidia-smi --query-gpu=clocks.sm --format=csv,noheader)} ${alignr}${color1}Temp: ${color green}${execpi .001 (nvidia-smi --query-gpu=temperature.gpu --format=csv,noheader)}°C
${color1}${voffset 5}Ver: ${color green}${execpi .001 (nvidia-smi --query-gpu=driver_version --format=csv,noheader)} ${color1} P-State: ${color green}${execpi .001 (nvidia-smi --query-gpu=pstate --format=csv,noheader)} ${alignr}${color1}BIOS: ${color green}${execpi .001 (nvidia-smi --query-gpu=vbios_version --format=csv,noheader)}
${color1}${voffset 5}GPU:${color green}${execpi .001 (nvidia-smi --query-gpu=utilization.gpu --format=csv,noheader)} ${color1}Ram:${color green}${execpi .001 (nvidia-smi --query-gpu=utilization.memory --format=csv,noheader)} ${color1}Pwr:${color green}${execpi .001 (nvidia-smi --query-gpu=power.draw --format=csv,noheader)} ${alignr}${color1}Freq: ${color green}${execpi .001 (nvidia-smi --query-gpu=clocks.mem --format=csv,noheader)}
${color orange}${hr 1}${endif}
# Prcoesses  |
${color1}${voffset 5}Process Name: ${goto 200}PID ${goto 265}CPU% ${alignr}Mem%
${color}${goto 13}${top name 1} ${goto 190}${top pid 1} ${goto 270}${color green}${top cpu 1} ${alignr}${top mem 1}
${color}${goto 13}${top name 2} ${goto 190}${top pid 2} ${goto 270}${color green}${top cpu 2} ${alignr}${top mem 2}
${color}${goto 13}${top name 3} ${goto 190}${top pid 3} ${goto 270}${color green}${top cpu 3} ${alignr}${top mem 3}
${color}${goto 13}${top name 4} ${goto 190}${top pid 4} ${goto 270}${color green}${top cpu 4} ${alignr}${top mem 4}
${color}${goto 13}${top name 5} ${goto 190}${top pid 5} ${goto 270}${color green}${top cpu 5} ${alignr}${top mem 5}
${color}${goto 13}${top name 6} ${goto 190}${top pid 6} ${goto 270}${color green}${top cpu 6} ${alignr}${top mem 6}
${color}${goto 13}${top name 7} ${goto 190}${top pid 7} ${goto 270}${color green}${top cpu 7} ${alignr}${top mem 7}
${color}${goto 13}${top name 8} ${goto 190}${top pid 8} ${goto 270}${color green}${top cpu 8} ${alignr}${top mem 8}
${color}${goto 13}${top name 9} ${goto 190}${top pid 9} ${goto 270}${color green}${top cpu 9} ${alignr}${top mem 9}
${color orange}${voffset 2}${hr 1}
# Storage    |
${color1}RAM Use/Free:${goto 148}${color red}$mem ${color red} ${goto 220}${membar 15,100} $alignr${color}${memeasyfree}
${color1}Linux Root:${goto 148}${color red}${fs_used /} ${color red} ${goto 220}${fs_bar 15,100 /} $alignr${color}${fs_free /}
${color1}Ubuntu 18.04:${goto 148}${if_mounted /mnt/clone}${color red} ${fs_used /mnt/clone} ${color red} ${goto 220}${fs_bar 15,100 /mnt/clone} $alignr${color}${fs_free /mnt/clone}${else} ${color yellow} /mnt/clone ${endif}
${color1}${if_mounted /mnt/old}Broken 16.04:${goto 148}${color red} ${fs_used /mnt/old} ${color red} ${goto 220}${fs_bar 15,100 /mnt/old} $alignr${color}${fs_free /mnt/old}${else}Cache RAM:${goto 148}${color green}${cached} ${color1} ${alignr}Buffers: ${color green} ${buffers}${endif}
${color1}${if_mounted /mnt/e}WSL+Linux:${goto 148}${color red}${fs_used /mnt/e} ${color red} ${goto 220}${fs_bar 15,100 /mnt/e} $alignr${color}${fs_free /mnt/e}${else}Swap:${goto 148}${color green}${swap} / ${swapmax} $alignr${color green}${swapperc}%${endif}
#${color}NVMe Win 10:${goto 148}${if_mounted /mnt/c}${color green} ${fs_used /mnt/c} / ${fs_size /mnt/c} $alignr${color green}${fs_used_perc /mnt/c}%${else}${color yellow}/mnt/c${endif}
#${color}${if_mounted /mnt/d}HGST_Win10:${goto 148}${color red} ${fs_used /mnt/d} / ${fs_size /mnt/d} $alignr${color green}${fs_used_perc /mnt/d}%${else}Cache RAM:${goto 148}${color green}${cached} ${color} Buffers: ${color green} ${buffers}${endif}
#${color}${if_mounted /mnt/e}WSL+Linux:${goto 148}${color red}${fs_used /mnt/e} / ${fs_size /mnt/e} $alignr${color red}${fs_used_perc /mnt/e}%${else}Swap:${goto 148}${color green}${swap} / ${swapmax} $alignr${color green}${swapperc}%${endif}
${color orange}${voffset 2}${hr 1}
# Network    |
#${color1}Network using vnStat "-i", "-w" and "-m"
${color}${goto 5}Today ${goto 100}Yesterday ${goto 225}Week ${goto 325}Month ${color green}
# vnstatd updates database every five minutes
${execi 300 vnstat -i enp59s0 | grep "today" | awk '{print $8" "substr ($9, 1, 1)}'} ${goto 110}${execi 300 vnstat -i enp59s0 | grep "yesterday" | awk '{print $8" "substr ($9, 1, 1)}'} ${goto 220}${execi 300 vnstat -i enp59s0 -w | grep "current week" | awk '{print $9" "substr ($10, 1, 1)}'} ${goto 315}${execi 300 vnstat -i enp59s0 -m | grep "`date +"%b '%y"`" | awk '{print $9" "substr ($10, 1, 1)}'}
${color}Down: ${color green}${downspeed enp59s0}/s ${color}${goto 220}Up: ${color green}${upspeed enp59s0}/s
${downspeedgraph enp59s0 25,190 000000 ff0000} ${alignr}${upspeedgraph enp59s0 25,190 000000 00ff00}$color
Total: ${color green}${totaldown enp59s0} $color${alignr}Total: ${color green}${totalup enp59s0}
#Bit Rate:$color ${wireless_bitrate wlp60s0}
# Brightness |
${color orange}${voffset 2}${hr 1}
${color1}${goto 5}Rise: ${color green}${execpi 300 cat /usr/local/bin/.eyesome-sunrise} ${goto 155}${color1}Set: ${color green}${execpi 300 cat /usr/local/bin/.eyesome-sunset} ${alignr}${color1}Level: ${color green}${execpi 10 cat /sys/class/backlight/intel_backlight/brightness}

Bottom half of conky screenshot

Just noticed the conky images above are top half only. The bottom half is included below so the code makes more sense. Also note the Intel iGPU appeared before because prime-select intel was used. Here the nVidia GPU appears because prime-select nvidia was used:

enter image description here

  • Interesting options Jun 19, 2018 at 2:29
  • 1
    This worked like a charm, I was getting terrible performance otherwise on an i5-8250u
    – mgabz
    Jul 28, 2018 at 18:59
  • would you be so kind as to share your conky.config?
    – Reb.Cabin
    Apr 12, 2019 at 16:58
  • 1
    @Reb.Cabin Done Apr 12, 2019 at 23:06
  • @WinEunuuchs2Unix Hi, I used your above script but the GPU doesn't show up as shown here dropbox.com/s/atxnbn23mz3hv83/… although it shows up when I use nvidia-smi as shown here dropbox.com/s/xa2yty5ylo88692/… any advice please?
    – Tak
    Jul 8, 2019 at 12:36

You can install a CPU frequence controller with this command:

    sudo apt-get install indicator-cpufreq

Then reboot, go to the notification area (the right side of the top panel), click on the cpu frequence indicator and then select Performance.

  • thanks, it could work for my Ubuntu 18.4 environment. Jun 1, 2020 at 7:19

Keep it handy in your ~/.bashrc or ~/.zshrc

alias cpugetavail='cat /sys/devices/system/cpu/cpu*/cpufreq/scaling_available_governors'
alias cpushowcurrent='cat /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor'
alias cpusethigh='echo performance | sudo tee /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor'

Settings > Power Mode

On Ubuntu 22.04's Settings under Power, I spotted a setting that might be of interest, you have the choices for "Power Mode":

  • Performance
  • Balanced Power
  • Power Saver

enter image description here

TODO how are those implemented more precisely? How does Ubuntu 22.04 handle power modes? appears to ask it. This option did not affect:

cat /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor

which were still set to powersave.

Its source appears to be at: https://github.com/GNOME/gnome-control-center/blob/bb89fc1d0ef1d30ebc804c064f7813f76b473106/panels/power/cc-power-profile-row.c#L131 but from reading it quickly I just can't easily see what it does.


From CPU benchmarking utility for Linux I found a simple benchmark that clearly discriminates between power cable plugged in or not:

sudo apt install stress-ng
stress-ng --cpu 4 --cpu-method matrixprod  --metrics-brief --perf -t 4

which appears to be doing matrix multiplication on multiple cores.

With the power cord plugged in and on "Performance" I always get about 275 ops/s:

info:  [177895] stressor       bogo ops real time  usr time  sys time   bogo ops/s     bogo ops/s
stress-ng: info:  [177895]                           (secs)    (secs)    (secs)   (real time) (usr+sys time)
stress-ng: info:  [177895] cpu                4417      4.00     15.98      0.00      1103.41         276.41

and as soon as I unplug and rerun, it drops to about 68 ops/s.

By selecting power saver:

  • plugged in: dropped slightly to 268, and appears more variable, e.g. if I switch windows it goes a bit lower
  • plugged out: increases slightly to 75 ops/s!

Now after:

echo performance | sudo tee /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor
Plugged Power Mode scaling_governor Ops/s
y Performance powersave 275
n Performance powersave 68
y Power Saver powersave 268
n Power Saver powersave 75
y Performance performance 278
n Performance performance 68


Nothing mattered much except the power cable plugged in/off. I was yet unable to find a software fix that will make my computer ignore the power cable status and keep high performance.

Tested on Lenovo ThinkPad P51.


  • Unfortunately, everyone doesn't have those choices. I think maybe this is because of the device change. I have Ubuntu 22.04 and I only have power save and balanced.
    – crackaf
    Jul 3, 2022 at 12:03
  • @crackaf OK, good to know. What's your hardware? Jul 3, 2022 at 21:31
  • 1
    hp elitebook 840 g2, i5-5300u, 12gb, 250gb ssd
    – crackaf
    Jul 4, 2022 at 22:19
  • @crackaf Looking through the TODO in answer leads to the power-profile-daemon repository where the introduction was updated to read The first 2 of those are available on every system. The "performance" mode is only available on select systems and is implemented by different "drivers" based on the system or systems it targets. I saw a nice info graphic regarding this at one point where it had broken down in more detail the requirements surrounding the performance power mode but I cannot seem to find it now when looking. Oct 12, 2022 at 7:58

indicator-cpufreq seems to be the easiest answer, but I didn't really like the taskbar integration. Just wanted to give a tip for a nicer frontend for indicator-cpufreq if you are using gnome. "CPU Power Manager", it let's you set min and max cpu right from the gnome taskbar.

CPU Power Manager: https://extensions.gnome.org/extension/945/cpu-power-manager/#

Thanks to all the previous posters!

  • 1
    very nice man works perfect
    – Bruno Lee
    Dec 12, 2021 at 7:22

CPU frequency controller helped me

To install CPU frequency controller sudo apt-get install indicator-cpufreq

Reboot your computer

You will see a icon on the notification area

Click on the icon and change it to Performance

This is how I increased my performance in linux regardless of power

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