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Original author(s) X.Org Foundation
Stable release
1.5.0[1] / May 16, 2015 (2015-05-16)
Platform X Window System
License Implementations available under various licenses
Website www.x.org/wiki/Projects/XRandR/
RandR is an extension to X11. The device driver for the display controller, CRTC, sits in the Linux kernel and exposes the KMS API to userspace.

RandR ("resize and rotate") is a communications protocol written as an extension to the X11[2] protocol. XRandR provides the ability to resize, rotate and reflect the root window of a screen. RandR is also responsible for setting the screen refresh rate.

Implementations of the protocol

An implementation of RandR is part of the X.Org Server.[3]

A user can typically use applications with a graphical front-end provided by the desktop environment to control RandR, but the additional command line tool xrandr exists. xrandr tells the display controller what resolution and refresh rate it should output on which of its outputs (e.g. VGA1, HDMI3). The name of the output is determined by the device driver for the display controller (KMS driver).


The initial X11 design did not anticipate the need for dynamic resizing and it was necessary to restart the X display server to bring about the changes. However, XFree86 has, since its first release, allowed the user to change the screen resolution on the fly without changing the desktop size. The RandR extension framework brought the ability to change display characteristics without restarting the X session. The extension framework allows laptops and handheld computers to change their screen size to drive external monitors at different resolutions than their built in screens.[4]

The RandR extension was initially implemented in the XFree86's TinyX server,[5] and partial support for version 1.0 was added to XFree86 4.3.[6][7]

Release history

RandR 1.1

RandR 1.2

RandR 1.2 permits only one virtual screen per display device. It is not possible to assign each monitor on a device to a different screen (sometimes called "Zaphod" mode), or to combine monitors from multiple devices into a single screen.[8] One practical limiting effect of this is that it is not possible to run a different WM on each monitor, since window managers are limited to one per screen.

Some of these specific issues[which?] are resolved in RandR 1.3.[9]

RandR 1.3

Some of the features in version 1.3:[10]

  • Querying state without output probing
  • Multi-monitor panning (still limited to one separate screen per GPU[11])
  • Display transformations (translation, scaling, rotation, projection)
  • Standard outputs

RandR 1.4

Some of the features in 1.4:[12]

  • Output border adjustment properties
  • Provider objects, which allow configuration of render and output offload for multi-GPU configurations

RandR 1.5

Some of the features in 1.5:[13]


There are numerous graphical programs, that make use of RandR to change the settings of connected screens. As can be seen in the examples, such offer less choices when compared to the available command-line programs.

The gnome-display-properties of the GNOME Control Center does not allow to set the refresh rate of a screen, the corresponding Xfce program allows configuring resolution, refresh rate, rotation and even reflection. The lxrandr program only allows to set screen resolution and refresh rate but not rotation nor reflection.

As can be seen in the example below "#Mirroring Laptop screen on Beamer and scaling", the command-line tools xrandr enables far more interesting and useful settings.

arandr is not a graphical program for xrandr, but a graphical front-end for xrandr. It enables the user to configure the monitor in a graphical manner and outputs the corresponding options for xrandr for that particular setup.[14]

Clone means match largest common resolution between two monitors. Overlay can show part of other wayport (think presentations, maybe).


Calling xrandr without parameters outputs the current state of the output ports:

Screen 0: minimum 8 x 8, current 3840 x 1080, maximum 32767 x 32767
eDP1 connected primary 1920x1080+1920+0 (normal left inverted right x axis y axis) 345mm x 194mm
   1920x1080      60.0*+
   1400x1050      60.0  
   1280x1024      60.0  
   1280x960       60.0  
   1024x768       60.0  
   800x600        60.3     56.2  
   640x480        59.9  
VGA1 disconnected (normal left inverted right x axis y axis)
DP1 disconnected (normal left inverted right x axis y axis)
HDMI1 connected 1920x1080+0+0 (normal left inverted right x axis y axis) 700mm x 394mm
   1280x720       50.0 +   60.0     59.9  
   1920x1080i     60.1*    50.0     60.0  
   1024x768       60.0  
   800x600        60.3  
   720x576        50.0  
   720x480        60.0     59.9  
DP2 disconnected (normal left inverted right x axis y axis)
HDMI2 disconnected (normal left inverted right x axis y axis)
DP3 disconnected (normal left inverted right x axis y axis)
HDMI3 disconnected (normal left inverted right x axis y axis)
VIRTUAL1 disconnected (normal left inverted right x axis y axis)

In this example, there are two monitors connected: one to "eDP1", which is a DisplayPort-Connector, and one to "HDMI1", which is a HDMI-Connector. The other outputs are detected as "disconnected". The current active modes for "eDP1" is a resolution of 1920x1080 at 60 Hz, while "HDMI1" is at 1920x1080 pixels in "interlaced" mode (hence the "i" next to the resolution).

The position of the displays (see next section) is not immediately visible. The current resolution, for example "1920x1080+1920+0" for "eDP1" contains that information. In this example, the monitor's X-Position is shifted to the right by 1920 pixels—the X-resolution of "HDMI1"—which is "left-of" "eDP1". To aid with visualizing, there are tools like KRandRTray which show a graphical representation of the current setup. The preferred mode is denoted by the "+" sign next to a mode in the above xrandr output and is automatically selected when using "--auto", see the examples below.

Screen position

A common setup is to have one screen left or right of another screen. This example assumes that the output named "eDP1" is the primary screen, while VGA1 is a monitor that is placed on the left of "eDP1".

xrandr --output VGA1 --auto --left-of eDP1

The "--auto" parameter enables all connected but disabled outputs with their preferred mode (denoted by the "+" sign in the above xrandr output), because of that it is not always required to explicitly set parameters like resolution or refresh rate.

Disabling an output

Disabling an output requires the parameter "--off"

xrandr --output VGA1 --off

Mirroring Laptop screen on Beamer and scaling

xrandr --fb 1600x900 --output LVDS1 --mode 1600x900 --scale 1x1 --output HDMI3 --same-as LVDS1 --mode 1920x1200 --scale-from 1600x900[15]


External links