The X Window System (X11) provides the basis of NixOS’ graphical user interface. It can be enabled as follows: = true; The X server will automatically detect and use the appropriate video driver from a set of X.org drivers (such as vesa and intel). You can also specify a driver manually, e.g. = [ "r128" ]; to enable X.org’s xf86-video-r128 driver. You also need to enable at least one desktop or window manager. Otherwise, you can only log into a plain undecorated xterm window. Thus you should pick one or more of the following lines: = true; = true; = true; = true; = true; = true; = true; = true; = true; NixOS’s default display manager (the program that provides a graphical login prompt and manages the X server) is LightDM. You can select an alternative one by picking one of the following lines: = true; = true; You can set the keyboard layout (and optionally the layout variant): = "de"; = "neo"; The X server is started automatically at boot time. If you don’t want this to happen, you can set: = false; The X server can then be started manually: # systemctl start display-manager.service On 64-bit systems, if you want OpenGL for 32-bit programs such as in Wine, you should also set the following: = true; The x11 login screen can be skipped entirely, automatically logging you into your window manager and desktop environment when you boot your computer. This is especially helpful if you have disk encryption enabled. Since you already have to provide a password to decrypt your disk, entering a second password to login can be redundant. To enable auto-login, you need to define your default window manager and desktop environment. If you wanted no desktop environment and i3 as your your window manager, you'd define: = "none+i3"; Every display manager in NixOS supports auto-login, here is an example using lightdm for a user alice: = true; = true; = "alice"; There are two choices for Intel Graphics drivers in X.org: modesetting (included in the xorg-server itself) and intel (provided by the package xf86-video-intel). The default and recommended is modesetting. It is a generic driver which uses the kernel mode setting (KMS) mechanism. It supports Glamor (2D graphics acceleration via OpenGL) and is actively maintained but may perform worse in some cases (like in old chipsets). The second driver, intel, is specific to Intel GPUs, but not recommended by most distributions: it lacks several modern features (for example, it doesn't support Glamor) and the package hasn't been officially updated since 2015. The results vary depending on the hardware, so you may have to try both drivers. Use the option to set one. The recommended configuration for modern systems is: = [ "modesetting" ]; = true; If you experience screen tearing no matter what, this configuration was reported to resolve the issue: = [ "intel" ]; = '' Option "DRI" "2" Option "TearFree" "true" ''; Note that this will likely downgrade the performance compared to modesetting or intel with DRI 3 (default). NVIDIA provides a proprietary driver for its graphics cards that has better 3D performance than the X.org drivers. It is not enabled by default because it’s not free software. You can enable it as follows: = [ "nvidia" ]; Or if you have an older card, you may have to use one of the legacy drivers: = [ "nvidiaLegacy390" ]; = [ "nvidiaLegacy340" ]; = [ "nvidiaLegacy304" ]; = [ "nvidiaLegacy173" ]; You may need to reboot after enabling this driver to prevent a clash with other kernel modules. AMD provides a proprietary driver for its graphics cards that has better 3D performance than the X.org drivers. It is not enabled by default because it’s not free software. You can enable it as follows: = [ "ati_unfree" ]; You will need to reboot after enabling this driver to prevent a clash with other kernel modules. For recent AMD GPUs you most likely want to keep either the defaults or "amdgpu" (both free). Support for Synaptics touchpads (found in many laptops such as the Dell Latitude series) can be enabled as follows: = true; The driver has many options (see ). For instance, the following disables tap-to-click behavior: = false; Note: the use of services.xserver.synaptics is deprecated since NixOS 17.09. GTK themes can be installed either to user profile or system-wide (via environment.systemPackages). To make Qt 5 applications look similar to GTK2 ones, you can install qt5.qtbase.gtk package into your system environment. It should work for all Qt 5 library versions. It is possible to install custom XKB keyboard layouts using the option services.xserver.extraLayouts . As a first example, we are going to create a layout based on the basic US layout, with an additional layer to type some greek symbols by pressing the right-alt key. To do this we are going to create a us-greek file with a xkb_symbols section. xkb_symbols "us-greek" { include "us(basic)" // includes the base US keys include "level3(ralt_switch)" // configures right alt as a third level switch key <LatA> { [ a, A, Greek_alpha ] }; key <LatB> { [ b, B, Greek_beta ] }; key <LatG> { [ g, G, Greek_gamma ] }; key <LatD> { [ d, D, Greek_delta ] }; key <LatZ> { [ z, Z, Greek_zeta ] }; }; To install the layout, the filepath, a description and the list of languages must be given: .us-greek = { description = "US layout with alt-gr greek"; languages = [ "eng" ]; symbolsFile = /path/to/us-greek; } The name should match the one given to the xkb_symbols block. The layout should now be installed and ready to use: try it by running setxkbmap us-greek and type <alt>+a. To change the default the usual services.xserver.layout option can still be used. A layout can have several other components besides xkb_symbols, for example we will define new keycodes for some multimedia key and bind these to some symbol. Use the xev utility from pkgs.xorg.xev to find the codes of the keys of interest, then create a media-key file to hold the keycodes definitions xkb_keycodes "media" { <volUp> = 123; <volDown> = 456; } Now use the newly define keycodes in media-sym: xkb_symbols "media" { key.type = "ONE_LEVEL"; key <volUp> { [ XF86AudioLowerVolume ] }; key <volDown> { [ XF86AudioRaiseVolume ] }; } As before, to install the layout do .media = { description = "Multimedia keys remapping"; languages = [ "eng" ]; symbolsFile = /path/to/media-key; keycodesFile = /path/to/media-sym; }; The function pkgs.writeText <filename> <content> can be useful if you prefer to keep the layout definitions inside the NixOS configuration. Unfortunately, the Xorg server does not (currently) support setting a keymap directly but relies instead on XKB rules to select the matching components (keycodes, types, ...) of a layout. This means that components other than symbols won't be loaded by default. As a workaround, you can set the keymap using setxkbmap at the start of the session with: = "setxkbmap -keycodes media"; If you are manually starting the X server, you should set the argument -xkbdir /etc/X11/xkb, otherwise X won't find your layout files. For example with xinit run $ xinit -- -xkbdir /etc/X11/xkb To learn how to write layouts take a look at the XKB documentation . More example layouts can also be found here .