Xwindows drives the underlying graphical interface of most if not all Unix/Linux computers providing a GUI. It was developed in 1984 at MIT. After around 35 years of development, tweaking and adding of new hardware and ideas, it is generally acknowledged to be a bit of a beast. It should be remembered that the common configuration at time of development was a single mini running X providing individual views to Xterminals in a timesharing system. Nowadays the norm is X providing a single screen on a desktop or laptop.
All of this means that there are many ways of achieving the same thing and many slightly different things that can meet the same purpose. In modern X versions sometimes you can get away with limited or no configuration. In the last few years the boast is that X is self configuring. Certainly the best practice rule of thumb is less configuration is better - that is only configure what is wrong.
This approach works well when the monitors are the same size and resolution. Interesting things happen - like windows off screen etc - when they are not. It is supposed to work but does not. It should also be noted that in a full desktop environment such as Gnome there are built-in GUI utilities to achieve this. However *box environments suffer.
1) Identify where your windows manager or desktop environment places startup code. For fluxbox this is ~/.fluxbox/startup
2) Add the xrandr utility and if you like GUI the arandr utility
pacman -S xorg-xrandr arandr
3) From the commandline run xrandr and you will see something like:
Screen 0: minimum 320 x 200, current 3280 x 1080, maximum 8192 x 8192 VGA1 connected 1360x768+0+0 (normal left inverted right x axis y axis) 406mm x 229mm 1360x768 60.0*+ 1024x768 75.1 75.0 60.0 832x624 74.6 800x600 75.0 60.3 640x480 75.0 60.0 720x400 70.1 HDMI1 connected 1920x1080+1360+0 (normal left inverted right x axis y axis) 477mm x 268mm 1920x1080 60.0*+ 1600x1200 60.0 1680x1050 60.0 1280x1024 75.0 60.0 1440x900 59.9 1280x960 60.0 1152x864 75.0 1024x768 75.1 70.1 60.0 832x624 74.6 800x600 75.0 60.3 56.2 640x480 72.8 75.0 60.0 720x400 70.1 DP1 disconnected (normal left inverted right x axis y axis) HDMI2 disconnected (normal left inverted right x axis y axis) HDMI3 disconnected (normal left inverted right x axis y axis) DP2 disconnected (normal left inverted right x axis y axis) DP3 disconnected (normal left inverted right x axis y axis)
4) Note down the portnames of the monitors attached - in the case of the above "VGA1" and "HDMI1"
5) Decide which resolution you are going to use. Each monitor has a preferred mode that, according to the manufacturer, is the best visually. These are marked by a "+". The mode a monitor is running at is marked by a "*". You should if possible use the preferred mode and a mode shared by both monitors. You can also add modes: see the Xrandr page.
6) Decide which monitor is on the left or right (or top and bottom) and configure as follows:
VGA1 left of HDMI1 at their preferred resolutions
xrandr --output VGA1 --mode 1360x768 --pos 0x0 --output HDMI1 --mode 1920x1080 --pos 1360x0
- --output specifies which port to use
- --mode specifies which mode to use
- --pos specifies the x/y coordinates of this monitor on the big virtual screen
xrandr --output VGA1 --mode 1360x768 --output HDMI1 --mode 1920x1080 --right-of VGA1
- --right-of places the previous screen (HDMI1) to the right of the specified screen (VGA1)
VGA1 right of HDMI1 at 1024x768
xrandr --output VGA1 --mode 1024x768 --pos 1920x0 --output HDMI1 --mode 1024x768 --pos 0x0
xrandr --output VGA1 --mode 1024x768 --output HDMI1 --mode 1024x768 --left-of VGA1
- --left-of places the previous screen (HDMI1) to the left of the specified screen (VGA1)
VGA1 above HDMI1 at preferred resolution
xrandr --output VGA1 --mode 1360x768 --pos 0x0 --output HDMI1 --mode 1920x1080 --pos 0x768
xrandr --output VGA1 --mode 1360x768 --output HDMI1 --mode 1920x1080 --below VGA1
- --below places the previous screen (HDMI1) below the specified screen (VGA1)
VGA1 below HDMI1 at 1024x768
xrandr --output VGA1 --mode 1024x768 --pos 0x768 --output HDMI1 --mode 1024x768 --pos 0x0
xrandr --output VGA1 --mode 1024x768 --output HDMI1 --mode 1024x768 --above VGA1
- --above places the previous screen (HDMI1) to the above the specified screen (VGA1)
7) Play around at the command line until you have a setting that works for you. When you do simply copy that call to xrandr into your window manager/desktop startup file. Arandr is a GUI interface to xrandr and may have some benefits in your search for a solution.
I found that some settings and approaches worked better than others and that even the best did not work in all cases because of the differences between my two monitors.
Extended Screen using XRandR and an xorg.conf file
Another way to set up a Dual Screen is by using an xorg.conf file. This configuration should work with most open-source drivers - anything that has support for XRandR.
Setting up a Dual Screen configuration you only need the two sections after the given filename as follows:
Section "Monitor" Identifier "VGA1" Option "Primary" "true" EndSection # Section "Monitor" Identifier "HDMI1" Option "RightOf" "VGA1" EndSection
Where VGA1 and HDMI1 are monitor ports.
- You specify the individual ports using the Identifier lines in the Monitor sections. These are the same ports that are listed by
- This setup does not specify which resolutions to use or absolute positions relative to each other of both monitor's images. To specify those you could add a preferred mode which is given as an x size, a lower-case "x", and a y size, and you could also specify a position which is given as an x coordinate, a space, and then a y coordinate, to the Monitor sections:
Option "PreferredMode" "1920x1080" Option "Position" "0 0"
- Setting up a Dual Screen this way uses XRandR. On the Multihead page there is another method to configure X-Server file(s) called Xinerama. Xinerama is used when complex display setups are required.