# X Window System
The X Window system is a principal way to get GUI access to the clusters. The **X Window System** (commonly known as **X11**, based on its current major version being 11, or shortened to simply **X**, and sometimes informally **X-Windows**) is a computer software system and network [protocol](http://en.wikipedia.org/wiki/Protocol_%28computing%29 "Protocol (computing)") that provides a basis for [graphical user interfaces](http://en.wikipedia.org/wiki/Graphical_user_interface "Graphical user interface") (GUIs) and rich input device capability for [networked computers](http://en.wikipedia.org/wiki/Computer_network "Computer network").
!!! tip
The X display forwarding must be activated and the X server running on client side
## X Display
### Linux Example
In order to display graphical user interface GUI of various software tools, you need to enable the X display forwarding. On Linux and Mac, log in using the -X option in ssh client:
```console
local $ ssh -X username@cluster-name.it4i.cz
```
### PuTTY on Windows
On Windows use the PuTTY client to enable X11 forwarding. In PuTTY menu, go to Connection-SSH-X11, mark the Enable X11 forwarding checkbox before logging in.
Then log in as usual.
### WSL (Bash on Windows)
In order to display graphical user interface GUI of various software tools, you need to enable the X display forwarding. Log in using the -X option in ssh client:
```console
local $ export DISPLAY=localhost:0.0
local $ ssh -X username@cluster-name.it4i.cz
```
## Verify the Forwarding
To verify the forwarding, type
```console
$ echo $DISPLAY
```
if you receive something like
```console
localhost:10.0
```
then the X11 forwarding is enabled.
## X Server
In order to display graphical user interface GUI of various software tools, you need running X server on your desktop computer. For Linux users, no action is required as the X server is the default GUI environment on most Linux distributions. Mac and Windows users need to install and run the X server on their workstations.
### X Server on OS X
Mac OS users need to install [XQuartz server](https://www.xquartz.org).
### X Server on Windows
There are variety of X servers available for Windows environment. The commercial Xwin32 is very stable and rich featured. The Cygwin environment provides fully featured open-source XWin X server. For simplicity, we recommend open-source X server by the [Xming project](http://sourceforge.net/projects/xming/). For stability and full features we recommend the
[XWin](http://x.cygwin.com/) X server by Cygwin
| How to use Xwin | How to use Xming |
|--- | --- |
| [Install Cygwin](http://x.cygwin.com/) Find and execute XWin.exe to start the X server on Windows desktop computer.[If no able to forward X11 using PuTTY to CygwinX](#if-no-able-to-forward-x11-using-putty-to-cygwinx) | Use Xlaunch to configure the Xming. Run Xming to start the X server on Windows desktop computer. |
Read more on [http://www.math.umn.edu/systems_guide/putty_xwin32.html](http://www.math.umn.edu/systems_guide/putty_xwin32.shtml)
## Running GUI Enabled Applications
!!! note
Make sure that X forwarding is activated and the X server is running.
Then launch the application as usual. Use the & to run the application in background.
```console
$ ml intel (idb and gvim not installed yet)
$ gvim &
```
```console
$ xterm
```
In this example, we activate the intel programing environment tools, then start the graphical gvim editor.
## GUI Applications on Compute Nodes
Allocate the compute nodes using -X option on the qsub command
```console
$ qsub -q qexp -l select=2:ncpus=24 -X -I
```
In this example, we allocate 2 nodes via qexp queue, interactively. We request X11 forwarding with the -X option. It will be possible to run the GUI enabled applications directly on the first compute node.
**Better performance** is obtained by logging on the allocated compute node via ssh, using the -X option.
```console
$ ssh -X r24u35n680
```
In this example, we log in on the r24u35n680 compute node, with the X11 forwarding enabled.
## Gnome GUI Environment
The Gnome 2.28 GUI environment is available on the clusters. We recommend to use separate X server window for displaying the Gnome environment.
### Gnome on Linux and OS X
To run the remote Gnome session in a window on Linux/OS X computer, you need to install Xephyr. Ubuntu package is
xserver-xephyr, on OS X it is part of [XQuartz](http://xquartz.macosforge.org/landing/). First, launch Xephyr on local machine:
```console
local $ Xephyr -ac -screen 1024x768 -br -reset -terminate :1 &
```
This will open a new X window with size 1024 x 768 at DISPLAY :1. Next, ssh to the cluster with DISPLAY environment variable set and launch gnome-session
```console
local $ DISPLAY=:1.0 ssh -XC yourname@cluster-name.it4i.cz -i ~/.ssh/path_to_your_key
... cluster-name MOTD...
yourname@login1.cluster-namen.it4i.cz $ gnome-session &
```
On older systems where Xephyr is not available, you may also try Xnest instead of Xephyr. Another option is to launch a new X server in a separate console, via:
```console
xinit /usr/bin/ssh -XT -i .ssh/path_to_your_key yourname@cluster-namen.it4i.cz gnome-session -- :1 vt12
```
However this method does not seem to work with recent Linux distributions and you will need to manually source
/etc/profile to properly set environment variables for PBS.
### Gnome on Windows
Use XLaunch to start the Xming server or run the XWin.exe. Select the "One window" mode.
Log in to the cluster, using [PuTTY](#putty-on-windows) or [Bash on Windows](#wsl-bash-on-windows). On the cluster, run the gnome-session command.
```console
$ gnome-session &
```
In this way, we run remote gnome session on the cluster, displaying it in the local X server
Use System-Log Out to close the gnome-session