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Revision as of 12:04, 16 December 2016 by Tesfabpel (talk | contribs) (Remove warning about driver 375.20 since a new driver is now out (375.26) which fixes the bug.)
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This article covers the proprietary NVIDIA graphics card driver. For the open-source driver, see Nouveau. If you have a laptop with hybrid Intel/NVIDIA graphics, see NVIDIA Optimus instead.


Warning: Avoid installing the NVIDIA driver through the package provided from the NVIDIA website. Installation through pacman allows upgrading the driver together with the rest of the system.

These instructions are for those using the stock linux or linux-lts packages. For custom kernel setup, skip to the next subsection.

1. If you do not know what graphics card you have, find out by issuing:

$ lspci -k | grep -A 2 -E "(VGA|3D)"

2. Determine the necessary driver version for your card by:

3. Install the appropriate driver for your card:

4. If you are on 64-bit and also need 32-bit OpenGL support, you must also install the equivalent lib32 package from the multilib repository (e.g. lib32-nvidia-libgl, lib32-nvidia-340xx-libgl or lib32-nvidia-304xx-libgl).

5. Reboot. The nvidia package contains a file which blacklists the nouveau module, so rebooting is necessary.

Once the driver has been installed, continue to #Configuration.

Unsupported drivers

If you have a GeForce 5 FX series card or older, Nvidia no longer supports drivers for your card. This means that these drivers do not support the current Xorg version. It thus might be easier if you use the nouveau driver, which supports the old cards with the current Xorg.

However, Nvidia's legacy drivers are still available and might provide better 3D performance/stability if you are willing to downgrade Xorg:

  • For GeForce 5 FX series cards [NV30-NV36], install the nvidia-173xx-dkmsAUR package. Last supported Xorg version is 1.15.
  • For GeForce 2/3/4 MX/Ti series cards [NV11, NV17-NV28], install the nvidia-96xx-dkmsAUR package. Last supported Xorg version is 1.12.
Tip: The legacy nvidia-96xx-dkms and nvidia-173xx-dkms drivers can also be installed from the unofficial [city] repository. (It is strongly advised that you do not skip any dependencies restriction when installing from here)

Custom kernel

If you are using a custom kernel, compilation of the Nvidia kernel modules can be automated with DKMS.

Install the nvidia-dkms package (or a specific branch such as nvidia-340xx-dkms). The Nvidia module will be rebuilt after every Nvidia or kernel update thanks to the DKMS Pacman Hook.

Pure Video HD

At least a video card with second generation PureVideo HD is required for hardware video acceleration using VDPAU.

DRM kernel mode setting

Note: The NVIDIA driver does not provide an fbdev driver for the high-resolution console for the kernel compiled-in vesafb module. However, the kernel compiled-in efifb module supports high-resolution nvidia console on EFI systems.[1] Another option to get high-resolution consoles is to use GRUB, see NVIDIA/Tips and tricks#Fixing terminal resolution and [2].

nvidia 364.16 adds support for DRM kernel mode setting. To enable this feature, add the nvidia-drm.modeset=1 kernel parameter, and add nvidia, nvidia_modeset, nvidia_uvm and nvidia_drm to your initramfs#MODULES.

Warning: Do not forget to run mkinitcpio every time you update driver.

Pacman hook

To avoid the possibility of forgetting to update your initramfs after an nvidia upgrade, you can use a pacman hook like this


Exec=/usr/bin/mkinitcpio -p linux

Hardware accelerated video decoding with XvMC

Accelerated decoding of MPEG-1 and MPEG-2 videos via XvMC are supported on GeForce4, GeForce 5 FX, GeForce 6 and GeForce 7 series cards. See XvMC for details.

Switching between NVIDIA and nouveau drivers

Tango-edit-cut.pngThis section is being considered for removal.Tango-edit-cut.png

Reason: This script literally just installs NVIDIA and uninstalls nouveau or vice versa. Also it doesn't mention the blacklisting of the nouveau module. (Discuss in Talk:NVIDIA#)

If you need to switch between drivers, you may use the following script, run as root (say yes to all confirmations):

BRANCH= # Enter a branch if needed, i.e. -340xx or -304xx
NVIDIA=nvidia${BRANCH} # If no branch entered above this would be "nvidia"

# Replace -R with -Rs to if you want to remove the unneeded dependencies
if [ $(pacman -Qqs ^mesa-libgl$) ]; then
    pacman -S $NVIDIA ${NVIDIA}-libgl # Add lib32-${NVIDIA}-libgl and ${NVIDIA}-lts if needed
    # pacman -R $NOUVEAU
elif [ $(pacman -Qqs ^${NVIDIA}$) ]; then
    pacman -S --needed $NOUVEAU mesa-libgl # Add lib32-mesa-libgl if needed
    pacman -R $NVIDIA # Add ${NVIDIA}-lts if needed


Tango-view-refresh-red.pngThis article or section is out of date.Tango-view-refresh-red.png

Reason: nvidia-xconfig should be avoided in 2016, and manual configuration isn't needed in most cases. Neither is the automatic configuration with nvidia-xconfig. (Discuss in Talk:NVIDIA#)

It is possible that after installing the driver it may not be needed to create an Xorg server configuration file. You can run a test to see if the Xorg server will function correctly without a configuration file. However, it may be required to create a configuration file (prefer /etc/X11/xorg.conf.d/20-nvidia.conf over /etc/X11/xorg.conf) in order to adjust various settings. This configuration can be generated by the NVIDIA Xorg configuration tool, or it can be created manually. If created manually, it can be a minimal configuration (in the sense that it will only pass the basic options to the Xorg server), or it can include a number of settings that can bypass Xorg's auto-discovered or pre-configured options.

Note: For manual configuration see NVIDIA/Tips and tricks#Manual configuration.

Minimal configuration

A basic configuration block in 20-nvidia.conf (or deprecated in xorg.conf) would look like this:

Section "Device"
        Identifier "Nvidia Card"
        Driver "nvidia"
        VendorName "NVIDIA Corporation"
        Option "NoLogo" "true"
        #Option "UseEDID" "false"
        #Option "ConnectedMonitor" "DFP"
        # ...
Tip: If upgrading from nouveau make sure to remove nouveau from /etc/mkinitcpio.conf. See Switching between NVIDIA and nouveau drivers[broken link: invalid section], if switching between the open and proprietary drivers often.

Automatic configuration

The NVIDIA package includes an automatic configuration tool to create an Xorg server configuration file (xorg.conf) and can be run by:

# nvidia-xconfig

This command will auto-detect and create (or edit, if already present) the /etc/X11/xorg.conf configuration according to present hardware.

If there are instances of DRI, ensure they are commented out:

#    Load        "dri"

Double check your /etc/X11/xorg.conf to make sure your default depth, horizontal sync, vertical refresh, and resolutions are acceptable.

Warning: That may still not work properly with Xorg-server 1.8

NVIDIA Settings

The nvidia-settings tool lets you configure many options using either CLI or GUI. Running nvidia-settings without any options launches the GUI, for CLI options see nvidia-settings(1).

You can run the GUI as a normal user and save the settings to ~/.nvidia-settings-rc. Then you can load the settings using $ nvidia-settings --load-config-only (for example in your xinitrc). Alternatively, run nvidia-settings as root, and then save the configuration to /etc/X11/xorg.conf.d/ as usual.

Tip: If your X server is crashing on startup, it may be because the GUI-generated settings are corrupt. Try deleting the generated file and starting from scratch.

Multiple monitors

See Multihead for more general information.

Using NVIDIA Settings

The nvidia-settings tool can configure multiple monitors.

For CLI configuration, first get the CurrentMetaMode by running:

$ nvidia-settings -q CurrentMetaMode
Attribute 'CurrentMetaMode' (hostnmae:0.0): id=50, switchable=no, source=nv-control :: DPY-1: 2880x1620 @2880x1620 +0+0 {ViewPortIn=2880x1620, ViewPortOut=2880x1620+0+0}

Save everything after the :: to the end of the attribute (in this case: DPY-1: 2880x1620 @2880x1620 +0+0 {ViewPortIn=2880x1620, ViewPortOut=2880x1620+0+0}) and use to reconfigure your displays with nvidia-settings --assign "CurrentMetaMode=your_meta_mode".

Tip: You can create shell aliases for the different monitor and resolution configurations you use.


If the driver does not properly detect a second monitor, you can force it to do so with ConnectedMonitor.


Section "Monitor"
    Identifier     "Monitor1"
    VendorName     "Panasonic"
    ModelName      "Panasonic MICRON 2100Ex"
    HorizSync       30.0 - 121.0 # this monitor has incorrect EDID, hence Option "UseEDIDFreqs" "false"
    VertRefresh     50.0 - 160.0
    Option         "DPMS"

Section "Monitor"
    Identifier     "Monitor2"
    VendorName     "Gateway"
    ModelName      "GatewayVX1120"
    HorizSync       30.0 - 121.0
    VertRefresh     50.0 - 160.0
    Option         "DPMS"

Section "Device"
    Identifier     "Device1"
    Driver         "nvidia"
    Option         "NoLogo"
    Option         "UseEDIDFreqs" "false"
    Option         "ConnectedMonitor" "CRT,CRT"
    VendorName     "NVIDIA Corporation"
    BoardName      "GeForce 6200 LE"
    BusID          "PCI:3:0:0"
    Screen          0

Section "Device"
    Identifier     "Device2"
    Driver         "nvidia"
    Option         "NoLogo"
    Option         "UseEDIDFreqs" "false"
    Option         "ConnectedMonitor" "CRT,CRT"
    VendorName     "NVIDIA Corporation"
    BoardName      "GeForce 6200 LE"
    BusID          "PCI:3:0:0"
    Screen          1

The duplicated device with Screen is how you get X to use two monitors on one card without TwinView. Note that nvidia-settings will strip out any ConnectedMonitor options you have added.


You want only one big screen instead of two. Set the TwinView argument to 1. This option should be used if you desire compositing. TwinView only works on a per card basis, when all participating monitors are connected to the same card.

Option "TwinView" "1"

Example configuration:

Section "ServerLayout"
    Identifier     "TwinLayout"
    Screen         0 "metaScreen" 0 0

Section "Monitor"
    Identifier     "Monitor0"
    Option         "Enable" "true"

Section "Monitor"
    Identifier     "Monitor1"
    Option         "Enable" "true"

Section "Device"
    Identifier     "Card0"
    Driver         "nvidia"
    VendorName     "NVIDIA Corporation"

    #refer to the link below for more information on each of the following options.
    Option         "HorizSync"          "DFP-0: 28-33; DFP-1 28-33"
    Option         "VertRefresh"        "DFP-0: 43-73; DFP-1 43-73"
    Option         "MetaModes"          "1920x1080, 1920x1080"
    Option         "ConnectedMonitor"   "DFP-0, DFP-1"
    Option         "MetaModeOrientation" "DFP-1 LeftOf DFP-0"

Section "Screen"
    Identifier     "metaScreen"
    Device         "Card0"
    Monitor        "Monitor0"
    DefaultDepth    24
    Option         "TwinView" "True"
    SubSection "Display"
        Modes          "1920x1080"

Device option information.

If you have multiple cards that are SLI capable, it is possible to run more than one monitor attached to separate cards (for example: two cards in SLI with one monitor attached to each). The "MetaModes" option in conjunction with SLI Mosaic mode enables this. Below is a configuration which works for the aforementioned example and runs GNOME flawlessly.

Section "Device"
        Identifier      "Card A"
        Driver          "nvidia"
        BusID           "PCI:1:00:0"

Section "Device"
        Identifier      "Card B"
        Driver          "nvidia"
        BusID           "PCI:2:00:0"

Section "Monitor"
        Identifier      "Right Monitor"

Section "Monitor"
        Identifier      "Left Monitor"

Section "Screen"
        Identifier      "Right Screen"
        Device          "Card A"
        Monitor         "Right Monitor"
        DefaultDepth    24
        Option          "SLI" "Mosaic"
        Option          "Stereo" "0"
        Option          "BaseMosaic" "True"
        Option          "MetaModes" "GPU-0.DFP-0: 1920x1200+4480+0, GPU-1.DFP-0:1920x1200+0+0"
        SubSection      "Display"
                        Depth           24

Section "Screen"
        Identifier      "Left Screen"
        Device          "Card B"
        Monitor         "Left Monitor"
        DefaultDepth    24
        Option          "SLI" "Mosaic"
        Option          "Stereo" "0"
        Option          "BaseMosaic" "True"
        Option          "MetaModes" "GPU-0.DFP-0: 1920x1200+4480+0, GPU-1.DFP-0:1920x1200+0+0"
        SubSection      "Display"
                        Depth           24

Section "ServerLayout"
        Identifier      "Default"
        Screen 0        "Right Screen" 0 0
        Option          "Xinerama" "0"
Manual CLI configuration with xrandr

Tango-inaccurate.pngThe factual accuracy of this article or section is disputed.Tango-inaccurate.png

Reason: Do these commands set up the monitors in TwinView mode? (Discuss in Talk:NVIDIA#)

If the latest solutions do not work for you, you can use your window manager's autostart implementation with xorg-xrandr.

Some xrandr examples could be:

xrandr --output DVI-I-0 --auto --primary --left-of DVI-I-1


xrandr --output DVI-I-1 --pos 1440x0 --mode 1440x900 --rate 75.0


  • --output is used to indicate the "monitor" to which the options are set.
  • DVI-I-1 is the name of the second monitor.
  • --pos is the position of the second monitor relative to the first.
  • --mode is the resolution of the second monitor.
  • --rate is the refresh rate (in Hz).
Vertical sync using TwinView

If you are using TwinView and vertical sync (the "Sync to VBlank" option in nvidia-settings), you will notice that only one screen is being properly synced, unless you have two identical monitors. Although nvidia-settings does offer an option to change which screen is being synced (the "Sync to this display device" option), this does not always work. A solution is to add the following environment variables at startup, for example append in /etc/profile:

export __GL_SYNC_TO_VBLANK=1

You can change DFP-0 with your preferred screen (DFP-0 is the DVI port and CRT-0 is the VGA port). You can find the identifier for your display from nvidia-settings in the "X Server XVideoSettings" section.

Gaming using TwinView

In case you want to play fullscreen games when using TwinView, you will notice that games recognize the two screens as being one big screen. While this is technically correct (the virtual X screen really is the size of your screens combined), you probably do not want to play on both screens at the same time.

To correct this behavior for SDL, try:


For OpenGL, add the appropriate Metamodes to your xorg.conf in section Device and restart X:

Option "Metamodes" "1680x1050,1680x1050; 1280x1024,1280x1024; 1680x1050,NULL; 1280x1024,NULL;"

Another method that may either work alone or in conjunction with those mentioned above is starting games in a separate X server.

Mosaic mode

Mosaic mode is the only way to use more than 2 monitors across multiple graphics cards with compositing. Your window manager may or may not recognize the distinction between each monitor.

Base Mosaic

Base Mosaic mode works on any set of Geforce 8000 series or higher GPUs. It cannot be enabled from within the nvidia-setting GUI. You must either use the nvidia-xconfig command line program or edit xorg.conf by hand. Metamodes must be specified. The following is an example for four DFPs in a 2x2 configuration, each running at 1920x1024, with two DFPs connected to two cards:

$ nvidia-xconfig --base-mosaic --metamodes="GPU-0.DFP-0: 1920x1024+0+0, GPU-0.DFP-1: 1920x1024+1920+0, GPU-1.DFP-0: 1920x1024+0+1024, GPU-1.DFP-1: 1920x1024+1920+1024"
Note: While the documentation lists a 2x2 configuration of monitors, Nvidia has reduced that ability to just 3 monitors in Base Mosaic mode as of driver version 304. More monitors are available with a Quadro card, but with standard consumer cards, it is limited to three. The explanation given for this reduction is "Feature parity with the Windows driver". As of September 2014, Windows has no restriction on the number of monitors, even on the same driver version. This is not a bug, this is entirely by design.
SLI Mosaic

If you have an SLI configuration and each GPU is a Quadro FX 5800, Quadro Fermi or newer then you can use SLI Mosaic mode. It can be enabled from within the nvidia-settings GUI or from the command line with:

$ nvidia-xconfig --sli=Mosaic --metamodes="GPU-0.DFP-0: 1920x1024+0+0, GPU-0.DFP-1: 1920x1024+1920+0, GPU-1.DFP-0: 1920x1024+0+1024, GPU-1.DFP-1: 1920x1024+1920+1024"

Driver persistence

Nvidia has a daemon that is to be run at boot. See the Driver Persistence section of the Nvidia documentation for more details.

To start the persistence daemon at boot, enable the nvidia-persistenced.service. For manual usage see the upstream documentation.

See also