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zh-CN:NVIDIA Template:Article summary start Template:Article summary text Template:Article summary heading Template:Article summary wiki Template:Article summary wiki Template:Article summary wiki Template:Article summary wiki Template:Article summary end

This article covers installing and configuring NVIDIA's proprietary graphic card driver. For information about the open-source drivers, see Nouveau.



These instructions are for those using the stock linux package. For custom kernel setup, skip to the next subsection.

Tip: It is usually beneficial to install the NVIDIA driver through pacman rather than through the package provided by the NVIDIA site, this allows the driver to be updated when upgrading the system.

1. Visit NVIDIA's driver download site to find out the appropriate driver for a given card. You could also check the legacy card list.

Note: For the very latest GPU models, it may be required to install nvidia-betaAUR from the AUR, since the stable drivers may not support the newly introduced features. Try the stable ones first (see bellow).

2. Install the appropriate driver for your card:

The nvidia{,-173xx,-96xx}-utils package is a dependency and will be pulled in automatically. It may conflict with the libgl package; this is normal. If pacman asks to remove libgl and fails due to unsatisfied dependencies, remove it with pacman -Rdd libgl.
The nvidia-96xx-utils package requires a legacy X.Org server release (xorg-server1.10AUR). It conflicts with the xorg-server from the official repositories.
Note: For Arch x86_64 you must also install the equivalent lib32 package (e.g. lib32-nvidia-utils or lib32-nvidia-utils-betaAUR).

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

Once the driver has been installed, continue to: #Configuring.

Alternate install: custom kernel

First of all, it's good to know how the ABS works by reading some of the other articles about it:

Note: You can also find the nvidia-allAUR package in AUR which makes it easier to use with custom kernels and multiple kernels.

The following is a short tutorial for making a custom NVIDIA driver package using ABS:

Install abs from the official repositories and generate the tree with:

# abs

As a standard user, make a temporary directory for creating the new package:

$ mkdir -p ~/abs

Make a copy of the nvidia package directory:

$ cp -r /var/abs/extra/nvidia/ ~/abs/

Go into the temporary nvidia build directory:

$ cd ~/abs/nvidia

It is required to edit the files nvidia.install and PKGBUILD file so that they contain the right kernel version variables.

While running the custom kernel, get the appropriate kernel and local version names:

$ uname -r
  1. In nvidia.install, replace the EXTRAMODULES='extramodules-3.4-ARCH' variable with the custom kernel version, such as EXTRAMODULES='extramodules-3.4.4' or EXTRAMODULES='extramodules-3.4.4-custom' depending on what the kernel's version is and the local version's text/numbers. Do this for all instances of the version number within this file.
  2. In PKGBUILD, change the _extramodules=extramodules-3.4-ARCH variable to match the appropriate version, as above.
  3. If there are more than one kernels in the system installed in parallel (such as a custom kernel alongside the default -ARCH kernel), change the pkgname=nvidia variable in the PKGBUILD to a unique identifier, such as nvidia-344 or nvidia-custom. This will allow both kernels to use the nvidia module, since the custom nvidia module has a different package name and will not overwrite the original. You will also need to comment the line in package() that blacklists the nvidia module in /usr/lib/modprobe.d/nvidia.conf (no need to do it again).

Then do:

$ makepkg -ci

The -c operand tells makepkg to clean left over files after building the package, whereas -i specifies that makepkg should automatically run pacman to install the resulting package.


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 /etc/X11/xorg.conf configuration file 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: Since 1.8.x Xorg uses separate configuration files in /etc/X11/xorg.conf.d/ - check out advanced configuration section.

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

Minimal configuration

A basic xorg.conf would look like this:

Section "Device"
   Identifier     "Device0"
   Driver         "nvidia"
   VendorName     "NVIDIA Corporation"
Tip: If upgrading from nouveau make sure to remove "nouveau" from /etc/mkinitcpio.conf. See NVIDIA#Switching_between_nvidia_and_nouveau_drivers, if switching between the open and proprietary drivers often.

Multiple monitors

See Multihead for more general information

To activate dual screen support, you just need to edit the /etc/X11/xorg.conf.d/10-monitor.conf file which you made before.

Per each physical monitor, add one Monitor, Device, and Screen Section entry, and then a ServerLayout section to manage it. Be advised that when Xinerama is enabled, the NVIDIA proprietary driver automatically disables compositing. If you desire compositing, you should comment out the Xinerama line in "ServerLayout" and use TwinView (see below) instead.

Section "ServerLayout"
    Identifier     "DualSreen"
    Screen       0 "Screen0"
    Screen       1 "Screen1" RightOf "Screen0" #Screen1 at the right of Screen0
    Option         "Xinerama" "1" #To move windows between screens

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

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

Section "Device"
    Identifier     "Device0"
    Driver         "nvidia"
    Screen         0

Section "Device"
    Identifier     "Device1"
    Driver         "nvidia"
    Screen         1

Section "Screen"
    Identifier     "Screen0"
    Device         "Device0"
    Monitor        "Monitor0"
    DefaultDepth    24
    Option         "TwinView" "0"
    SubSection "Display"
        Depth          24
        Modes          "1280x800_75.00"

Section "Screen"
    Identifier     "Screen1"
    Device         "Device1"
    Monitor        "Monitor1"
    DefaultDepth   24
    Option         "TwinView" "0"
    SubSection "Display"
        Depth          24


You want only one big screen instead of two. Set the TwinView argument to 1. This option should be used instead of Xinerama (see above), if you desire compositing.

Option "TwinView" "1"

TwinView only works on a per card basis: If you have multiple cards (and no SLI?), you'll have to use xinerama or zaphod mode (multiple X screens). You can combine TwinView with zaphod mode, ending up, for example, with two X screens covering two monitors each. Most window managers fail miserably in zaphod mode. The shining exception is Awesome. KDE almost works.

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

Automatic configuration

The NVIDIA package provides Twinview. This tool will help by automatically configuring all the monitors connected to your video card. This only works for multiple monitors on a single card. To configure Xorg Server with Twinview run:

# nvidia-xconfig --twinview
Manual CLI configuration with xrandr

If the latest solutions doesn't works for you, you can use the autostart trick of your window manager to run a xrandr command like this one :

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 to which "monitor" set the options.
  • DVI-I-1 is the name of the second monitor.
  • --pos is the position of the second monitor respect to the first.
  • --mode is the resolution of the second monitor.
  • --rate is the Hz refresh rate.

You must adapt the xrandr options with the help of the output of the command xrandr run alone in a terminal.

Using NVIDIA Settings

You can also use the nvidia-settings tool provided by nvidia-utils. With this method, you will use the proprietary software NVIDIA provides with their drivers. Simply run nvidia-settings as root, then configure as you wish, and then save the configuration to /etc/X11/xorg.conf.d/10-monitor.conf.


If the driver doesn't 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.


GUI: nvidia-settings

The NVIDIA package includes the nvidia-settings program that allows adjustment of several additional settings.

For the settings to be loaded on login, run this command from the terminal:

$ nvidia-settings --load-config-only

Or add it to the the desktop environment's auto-startup method.

For a dramatic 2D graphics performance increase in pixmap-intensive applications, e.g. Firefox, set the InitialPixmapPlacement parameter to 2:

$ nvidia-settings -a InitialPixmapPlacement=2

This is documented in nvidia-settings source code. For this setting to persist, this command needs to be run on every startup or added to your ~/.nvidia-settings-rc.

Tip: On rare occasions the ~/.nvidia-settings-rc may become corrupt. If this happens, the Xorg server may crash and the file will have to be deleted to fix the issue.

Enabling MSI (Message Signaled Interrupts)

By default, the graphics card uses a shared interrupt system. To give a small performance boost, edit /etc/modprobe.d/modprobe.conf and add:

options nvidia NVreg_EnableMSI=1

Be warned, as this has been known to damage some systems running older hardware!

To confirm, run:

# cat /proc/interrupts | grep nvidia
  43:          0         49       4199      86318   PCI-MSI-edge      nvidia

Advanced: 20-nvidia.conf

Edit /etc/X11/xorg.conf.d/20-nvidia.conf, and add the option to the correct section. The Xorg server will need to be restarted before any changes are applied.

Enabling desktop composition

As of NVIDIA driver version 180.44, support for GLX with the Damage and Composite X extensions is enabled by default. Refer to Composite for detailed instructions.

Disabling the logo on startup

Add the "NoLogo" option under section Device:

Option "NoLogo" "1"

Enabling hardware acceleration

Note: RenderAccel is enabled by default since drivers version 97.46.xx

Add the "RenderAccel" option under section Device:

Option "RenderAccel" "1"

Overriding monitor detection

The "ConnectedMonitor" option under section Device allows to override monitor detection when X server starts, which may save a significant amount of time at start up. The available options are: "CRT" for analog connections, "DFP" for digital monitors and "TV" for televisions.

The following statement forces the NVIDIA driver to bypass startup checks and recognize the monitor as DFP:

Option "ConnectedMonitor" "DFP"
Note: Use "CRT" for all analog 15 pin VGA connections, even if the display is a flat panel. "DFP" is intended for DVI digital connections only.

Enabling triple buffering

Enable the use of triple buffering by adding the "TripleBuffer" Option under section Device:

Option "TripleBuffer" "1"

Use this option if the graphics card has plenty of ram (equal or greater than 128MB). The setting only takes effect when syncing to vblank is enabled, one of the options featured in nvidia-settings.

Note: This option may introduce full-screen tearing and reduce performance. As of the R300 drivers, vblank is enabled by default.

Using OS-level events

Taken from the NVIDIA driver's README file: "[...] Use OS-level events to efficiently notify X when a client has performed direct rendering to a window that needs to be composited." It may help improving performance, but it is currently incompatible with SLI and Multi-GPU modes.

Add under section Device:

Option "DamageEvents" "1"
Note: This option is enabled by default in newer driver versions.

Enabling power saving

Add under section Monitor:

Option "DPMS" "1"

Enabling Brightness Control

Add under section Device:

Option "RegistryDwords" "EnableBrightnessControl=1"

Enabling SLI

Warning: As of May 7, 2011, you may experience sluggish video performance in GNOME 3 after enabling SLI.

Taken from the NVIDIA driver's README appendix: This option controls the configuration of SLI rendering in supported configurations. A "supported configuration" is a computer equipped with an SLI-Certified Motherboard and 2 or 3 SLI-Certified GeForce GPUs. See NVIDIA's SLI Zone for more information.

Find the first GPU's PCI Bus ID using lspci:

$ lspci | grep VGA

This will return something similar to:

03:00.0 VGA compatible controller: nVidia Corporation G92 [GeForce 8800 GTS 512] (rev a2)
05:00.0 VGA compatible controller: nVidia Corporation G92 [GeForce 8800 GTS 512] (rev a2)

Add the BusID (3 in the previous example) under section Device:

BusID "PCI:3:0:0"
Note: The format is important. The BusID value must be specified as "PCI:<BusID>:0:0"

Add the desired SLI rendering mode value under section Screen:

Option "SLI" "SLIAA"

The following table presents the available rendering modes.

Value Behavior
0, no, off, false, Single Use only a single GPU when rendering.
1, yes, on, true, Auto Enable SLI and allow the driver to automatically select the appropriate rendering mode.
AFR Enable SLI and use the alternate frame rendering mode.
SFR Enable SLI and use the split frame rendering mode.
SLIAA Enable SLI and use SLI antialiasing. Use this in conjunction with full scene antialiasing to improve visual quality.

Alternatively, you can use the nvidia-xconfig utility to insert these changes into xorg.conf with a single command:

# nvidia-xconfig --busid=PCI:3:0:0 --sli=SLIAA

To verify that SLI mode is enabled from a shell:

$ nvidia-settings -q all | grep SLIMode
 Attribute 'SLIMode' (arch:0.0): AA 
   'SLIMode' is a string attribute.
   'SLIMode' is a read-only attribute.
   'SLIMode' can use the following target types: X Screen.

Forcing Powermizer performance level (for laptops)

Add under section Device:

# Force Powermizer to a certain level at all times
# level 0x1=highest
# level 0x2=med
# level 0x3=lowest
# AC settings:
Option "RegistryDwords" "PowerMizerLevelAC=0x3"
# Battery settings:
Option	"RegistryDwords" "PowerMizerLevel=0x3"

Settings are better explained in NVIDIA Driver for X.org:Performance and Power Saving Hints.

Letting the GPU set its own performance level based on temperature

Add under section Device:

Option "RegistryDwords" "PerfLevelSrc=0x3333"

Disable vblank interrupts (for laptops)

When running the interrupt detection utility powertop, it can be observed that the Nvidia driver will generate an interrupt for every vblank. To disable, place in the Device section:

Option "OnDemandVBlankInterrupts" "1"

This will reduce interrupts to about one or two per second.

Enabling overclocking

Warning: Please note that overclocking may damage hardware and that no responsibility may be placed on the authors of this page due to any damage to any information technology equipment from operating products out of specifications set by the manufacturer.

To enable GPU and memory overclocking, place the following line in the Device section:

Option "Coolbits" "1"

This will enable on-the-fly overclocking within an X session by running:

$ nvidia-settings
Note: GTX 4xx/5xx series Fermi cores cannot currently be overclocked using the Coolbits method. The alternative is to edit and reflash the GPU BIOS either under DOS (preferred), or within a Win32 environment by way of nvflash and NiBiTor 6.0. The advantage of BIOS flashing is that not only can voltage limits be raised, but stability is generally improved over software overclocking methods such as Coolbits.
Setting static 2D/3D clocks

Set the following string in the Device section to enable PowerMizer at its maximum performance level:

Option "RegistryDwords" "PerfLevelSrc=0x2222"

Set one of the following two strings in the Device section to enable manual GPU fan control within nvidia-settings:

Option "Coolbits" "4"
Option "Coolbits" "5"

Enable screen rotation through XRandR

Note: this section is outdated starting with 302.17, nVidia now supports randr 1.2 and 1.3

Place the following line in the Device section:

Option "RandRRotation" "True"

After restarting Xorg:

$ xrandr -o left

The Screen should be rotated. To restore:

$ xrandr -o normal
Note: Editing xorg.conf may be unnecessary since screen rotation should be enabled by default, ideally by using the respective DE tools, such as SystemSettings in KDE.

Tips and tricks

Enabling Pure Video HD (VDPAU/VAAPI)

Hardware Required:

At least a video card with second generation PureVideo HD [1]

Software Required:

Nvidia video cards with the proprietary driver installed will provide video decoding capabilities with the VDPAU interface at different levels according to PureVideo generation.

You can also add support for the VA-API interface with:

# pacman -S vdpau-video

Check VA-API support with:

$ vainfo

To take full advantage of the hardware decoding capability of your video card you will need a media player that supports VDPAU or VA-API.

To enable hardware acceleration in MPlayer edit ~/.mplayer/config


To enable hardware acceleration in VLC go:

Tools -> Preferences -> Input & Codecs -> check Use GPU accelerated decoding

To enable hardware acceleration in smplayer go:

Options -> Preferences -> General -> Video Tab -> select vdpau as output driver

To enable hardware acceleration in gnome-mplayer go:

Edit -> Preferences -> set video output to vdpau

Playing HD movies on cards with low memory:

If your graphic card does not have a lot of memory (>512MB?), you can experience glitches when watching 1080p or even 720p movies. To avoid that start simple window manager like TWM or MWM.

Additionally increasing the MPlayer's cache size in ~/.mplayer/config can help, when your hard drive is spinning down when watching HD movies.

Using TV-out

A good article on the subject can be found here

X with a TV (DFP) as the only display

The X server falls back to CRT-0 if no monitor is automatically detected. This can be a problem when using a DVI connected TV as the main display, and X is started while the TV is turned off or otherwise disconnected.

To force nvidia to use DFP, store a copy of the EDID somewhere in the filesystem so that X can parse the file instead of reading EDID from the TV/DFP.

To acquire the EDID, start nvidia-settings. It will show some information in tree format, ignore the rest of the settings for now and select the GPU (the corresponding entry should be titled "GPU-0" or similar), click the DFP section (again, DFP-0 or similar), click on the Acquire Edid Button and store it somewhere, for example, /etc/X11/dfp0.edid.

Edit xorg.conf by adding to the Device section:

Option "ConnectedMonitor" "DFP"
Option "CustomEDID" "DFP-0:/etc/X11/dfp0.edid"

The ConnectedMonitor option forces the driver to recognize the DFP as if it were connected. The CustomEDID provides EDID data for the device, meaning that it will start up just as if the TV/DFP was connected during X the process.

This way, one can automatically start a display manager at boot time and still have a working and properly configured X screen by the time the TV gets powered on.

Check the power state

NVIDIA X.org driver can detect power source. To see the current state check 'GPUPowerSource' read-only parameter (0 - AC, 1 - battery):

   $ nvidia-settings -q GPUPowerSource -t

For it to be able to detect this you need to have acpid installed. Make sure to include acpid on DAEMONS array in rc.conf or this warning will appear on system log:

ACPI: failed to connect to the ACPI event daemon; the daemon
may not be running or the "AcpidSocketPath" X
configuration option may not be set correctly. When the
ACPI event daemon is available, the NVIDIA X driver will
try to use it to receive ACPI event notifications. For
details, please see the "ConnectToAcpid" and
"AcpidSocketPath" X configuration options in Appendix B: X
Config Options in the README.

Displaying GPU temperature in the shell

Method 1 - nvidia-settings

Note: This method requires that you are using X. Use Method 2 or Method 3 if you are not. Also note that Method 3 currently does not not work with newer nvidia cards such as the G210/220 as well as embedded GPUs such as the Zotac IONITX's 8800GS.

To display the GPU temp in the shell, use nvidia-settings as follows:

$ nvidia-settings -q gpucoretemp

This will output something similar to the following:

Attribute 'GPUCoreTemp' (hostname:0.0): 41.
'GPUCoreTemp' is an integer attribute.
'GPUCoreTemp' is a read-only attribute.
'GPUCoreTemp' can use the following target types: X Screen, GPU.

The GPU temps of this board is 41 C.

In order to get just the temperature for use in utils such as rrdtool or conky, among others:

$ nvidia-settings -q gpucoretemp -t

Method 2 - nvidia-smi

Use nvidia-smi which can read temps directly from the GPU without the need to use X at all. This is important for a small group of users who do not have X running on their boxes, perhaps because the box is headless running server apps. To display the GPU temp in the shell, use nvidia-smi as follows:

$ nvidia-smi

This should output something similar to the following:

$ nvidia-smi
Fri Jan  6 18:53:54 2012       
| NVIDIA-SMI 2.290.10   Driver Version: 290.10         |                       
| Nb.  Name                     | Bus Id        Disp.  | Volatile ECC SB / DB |
| Fan   Temp   Power Usage /Cap | Memory Usage         | GPU Util. Compute M. |
| 0.  GeForce 8500 GT           | 0000:01:00.0  N/A    |       N/A        N/A |
|  30%   62 C  N/A   N/A /  N/A |  17%   42MB /  255MB |  N/A      Default    |
| Compute processes:                                               GPU Memory |
|  GPU  PID     Process name                                       Usage      |
|  0.           ERROR: Not Supported                                          |

Only for Temp:

$ nvidia-smi -q -d TEMPERATURE

==============NVSMI LOG==============

Timestamp                       : Fri Jan  6 18:50:57 2012

Driver Version                  : 290.10

Attached GPUs                   : 1

GPU 0000:01:00.0
        Gpu                     : 62 C

In order to get just the temperature for use in utils such as rrdtool or conky, among others:

$ nvidia-smi -q -d TEMPERATURE | grep Gpu | cut -c35-36

Reference: http://www.question-defense.com/2010/03/22/gpu-linux-shell-temp-get-nvidia-gpu-temperatures-via-linux-cli

Method 3 - nvclock

Use nvclock which is available from the [extra] repo.

Note: nvclock cannot access thermal sensors on newer NVIDIA cards such as the G210/220.

There can be significant differences between the temperatures reported by nvclock and nvidia-settings/nv-control. According to this post by the author (thunderbird) of nvclock, the nvclock values should be more accurate.

Set Fan Speed at Login

You can adjust the fan speed on your graphics card with nvidia-settings's console interface. First ensure that your Xorg configuration sets the Coolbits option to 4 or 5 in your Device section to enable fan control.

Option "Coolbits" "4"
Note: GTX 4xx/5xx series cards cannot currently set fan speeds at login using this method. This method only allows for the setting of fan speeds within the current X session by way of nvidia-settings.

Place the following line in your ~/.xinitrc file to adjust the fan when you launch Xorg. Replace <n> with the fan speed percentage you want to set.

nvidia-settings -a "[gpu:0]/GPUFanControlState=1" -a "[fan:0]/GPUCurrentFanSpeed=<n>"

You can also configure a second GPU by incrementing the GPU and fan number.

nvidia-settings -a "[gpu:0]/GPUFanControlState=1" \ 
-a "[gpu:1]/GPUFanControlState=1" \
-a "[fan:0]/GPUCurrentFanSpeed=<n>" \
-a  [fan:1]/GPUCurrentFanSpeed=<n>" &

If you use a login manager such as GDM or KDM, you can create a desktop entry file to process this setting. Create ~/.config/autostart/nvidia-fan-speed.desktop and place this text inside it. Again, change <n> to the speed percentage you want.

[Desktop Entry]
Exec=nvidia-settings -a "[gpu:0]/GPUFanControlState=1" -a "[fan:0]/GPUCurrentFanSpeed=<n>"

Order of install/deinstall for changing drivers

Where the old driver is nvidiaO and the new driver is nvidiaN.

remove nvidiaO
install nvidia-utilsN
install nvidiaN
install lib32-nvidia-utils-N (if required)

Switching between nvidia and nouveau drivers

If you are switching between the nvidia and nouveau driver often, you can use these two scripts to make it easier (both need to be ran as root):

# nvidia -> nouveau

sed -i 's/#*options nouveau modeset=1/options nouveau modeset=1/' /etc/modprobe.d/modprobe.conf
sed -i 's/#*MODULES="nouveau"/MODULES="nouveau"/' /etc/mkinitcpio.conf

pacman -Rdds --noconfirm nvidia{,-utils}
pacman -S --noconfirm nouveau-dri xf86-video-nouveau

#cp {10-monitor,20-nouveau}.conf /etc/X11/xorg.conf.d/

mkinitcpio -p linux
# nouveau -> nvidia

sed -i 's/options nouveau modeset=1/#options nouveau modeset=1/' /etc/modprobe.d/modprobe.conf
sed -i 's/MODULES="nouveau"/#MODULES="nouveau"/' /etc/mkinitcpio.conf

pacman -Rdds --noconfirm nouveau-dri xf86-video-nouveau libgl
pacman -S --noconfirm nvidia{,-utils}

#rm /etc/X11/xorg.conf.d/{10-monitor,20-nouveau}.conf

mkinitcpio -p linux

A reboot is needed to complete the switch.

Adjust the scripts accordingly, if using other NVIDIA drivers (e.g. nvidia-173xx).

If using xorg-server older than 1.10.2, uncomment the lines that copy and remove {10-monitor,20-nouveau}.conf. Since 1.10.2 X loads nouveau automatically.


Bad performance, e.g. slow repaints when switching tabs in Chrome

On some machines, recent nvidia drivers introduce a bug(?) that causes X11 to redraw pixmaps really slow. Switching tabs in Chrome/Chromium (while having more than 2 tabs opened) takes 1-2 seconds, instead of a few milliseconds.

It seems that setting the variable InitialPixmapPlacement to 0 solves that problem, although (like described some paragraphs above) InitialPixmapPlacement=2 should actually be the faster method.

The variable can be (temporarily) set with the command

nvidia-settings -a InitialPixmapPlacement=0

To make this permanent, this call can be placed in a startup script.

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 appropiate 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.

Vertical sync using TwinView

If you're 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:

nano /etc/profile

Add to the end of the file:

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).

Old Xorg Settings

If upgrading from an old installation, please remove old /usr/X11R6/ paths as it can cause trouble during installation.

Corrupted screen: "Six screens" issue

For some users using Geforce GT 100M's, the screen turns out corrupted after X starts; divided into 6 sections with a resolution limited to 640x480.

To solve this problem, enable the Validation Mode NoTotalSizeCheck in section Device:

Section "Device"
 Option "ModeValidation" "NoTotalSizeCheck"

'/dev/nvidia0' Input/Output error

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

Reason: verify that the BIOS related suggestions work and are not coincidentally set while troubleshooting. (Discuss in Talk:NVIDIA#'/dev/nvidia0' Input/Output error... suggested fixes)

This error can occur for several different reasons, and the most common solution given for this error is to check for group/file permissions, which in almost every case is not the issue. The NVIDIA documentation does not talk in detail on what you should do to correct this problem but there are a few things that have worked for some people. The problem can be a IRQ conflict with another device or bad routing by either the kernel or your BIOS.

First thing to try is to remove other video devices such as video capture cards and see if the problem goes away. If there are too many video processors on the same system it can lead into the kernel being unable to start them because of memory allocation problems with the video controller. In particular on systems with low video memory this can occur even if there is only one video processor. In such case you should find out the amount of your system's video memory (e.g. with lspci -v) and pass allocation parameters to the kernel, e.g.:


If running a 64bit kernel, a driver defect can cause the nvidia module to fail initializing when IOMMU is on. Turning it off in the BIOS has been confirmed to work for some users. [2][3]

Another thing to try is to change your BIOS IRQ routing from Operating system controlled to BIOS controlled or the other way around. The first one can be passed as a kernel parameter:


The noacpi kernel parameter has also been suggested as a solution but since it disables ACPI completely it should be used with caution. Some hardware are easily damaged by overheating.

Note: The kernel parameters can be passed either through the kernel command line or the bootloader configuration file. See your bootloader Wiki page for more information.

'/dev/nvidiactl' errors

Trying to start an opengl application might result in errors such as:

Error: Could not open /dev/nvidiactl because the permissions are too
restrictive. Please see the FREQUENTLY ASKED QUESTIONS 
section of /usr/share/doc/NVIDIA_GLX-1.0/README 
for steps to correct.

Solve by adding the appropiate user to the video group and relogin:

# gpasswd -a username video

32 bit applications do not start

Under 64 bit systems, installing lib32-nvidia-utils that corresponds to the same version installed for the 64 bit driver fixes the issue.

Errors after updating the kernel

If a custom build of NVIDIA's module is used instead of the package from [extra], a recompile is required every time the kernel is updated. Rebooting is generally recommended after updating kernel and graphic drivers.

Crashing in general

  • Try disabling RenderAccel in xorg.conf.
  • If Xorg outputs an error about "conflicting memory type" or "failed to allocate primary buffer: out of memory", add nopat at the end of the kernel line in /boot/grub/menu.lst.
  • If the NVIDIA compiler complains about different versions of GCC between the current one and the one used for compiling the kernel, add in /etc/profile:
  • If Xorg is crashing with a "Signal 11" while using nvidia-96xx drivers, try disabling PAT. Pass the argument nopat to the kernel line in menu.lst.

More information about troubleshooting the driver can be found in the NVIDIA forums.

Bad performance after installing a new driver version

If FPS have dropped in comparison with older drivers, first check if direct rendering is turned on:

$ glxinfo | grep direct

If the command prints:

direct rendering: No

then that could be an indication for the sudden FPS drop.

A possible solution could be to regress to the previously installed driver version and rebooting afterwards.

CPU spikes with 400 series cards

If you are experiencing intermittent CPU spikes with a 400 series card, it may be caused by PowerMizer constantly changing the GPU's clock frequency. Switching PowerMizer's setting from Adaptive to Performance, add the following to the Device section of your Xorg configuration:

 Option "RegistryDwords" "PowerMizerEnable=0x1; PerfLevelSrc=0x3322; PowerMizerDefaultAC=0x1"

Laptops: X hangs on login/out, worked around with Ctrl+Alt+Backspace

If while using the legacy NVIDIA drivers Xorg hangs on login and logout (particularly with an odd screen split into two black and white/gray pieces), but logging in is still possible via Ctrl-Alt-Backspace (or whatever the new "kill X" keybind is), try adding this in /etc/modprobe.d/modprobe.conf:

options nvidia NVreg_Mobile=1

One user had luck with this instead, but it makes performance drop significantly for others:

options nvidia NVreg_DeviceFileUID=0 NVreg_DeviceFileGID=33 NVreg_DeviceFileMode=0660 NVreg_SoftEDIDs=0 NVreg_Mobile=1

Note that NVreg_Mobile needs to be changed according to the laptop:

  • 1 for Dell laptops.
  • 2 for non-Compal Toshiba laptops.
  • 3 for other laptops.
  • 4 for Compal Toshiba laptops.
  • 5 for Gateway laptops.

See NVIDIA Driver's Readme:Appendix K for more information.

Refresh rate not detected properly by XRandR dependant utilities

The XRandR X extension is not presently aware of multiple display devices on a single X screen; it only sees the MetaMode bounding box, which may contain one or more actual modes. This means that if multiple MetaModes have the same bounding box, XRandR will not be able to distinguish between them.

In order to support DynamicTwinView, the NVIDIA driver must make each MetaMode appear to be unique to XRandR. Presently, the NVIDIA driver accomplishes this by using the refresh rate as a unique identifier.

Use nvidia-settings -q RefreshRate to query the actual refresh rate on each display device.

The XRandR extension is currently being redesigned by the X.Org community, so the refresh rate workaround may be removed at some point in the future.

This workaround can also be disabled by setting the DynamicTwinView X configuration option to false, which will disable NV-CONTROL support for manipulating MetaModes, but will cause the XRandR and XF86VidMode visible refresh rate to be accurate.

No screens found on a laptop / NVIDIA Optimus

On a laptop, if the NVIDIA driver cannot find any screens, you may have an NVIDIA Optimus setup : an Intel chipset connected to the screen and the video outputs, and a NVIDIA card that does all the hard work and writes to the chipset's video memory.

Check if

lspci | grep VGA

outputs something similar to

00:02.0 VGA compatible controller: Intel Corporation Core Processor Integrated Graphics Controller (rev 02)
01:00.0 VGA compatible controller: nVidia Corporation Device 0df4 (rev a1)

Unfortunately NVIDIA has no plans to support this in their Linux drivers.

You need to install the Intel driver to handle the screens, then if you want 3D software you should run them through Bumblebee to tell them to use the NVIDIA card.

Possible Workaround

On my Lenovo W520 with a Quadro 1000M and Nvidia Optimus, I entered the BIOS and changed my default graphics setting from 'Optimus' to 'Discrete' and the pacman Nvidia drivers(295.20-1 at time of writing) recognized the screens.


-Enter BIOS
-Find Graphics Settings(For me it's in the Config Tab, then Display submenu)
-Change 'Graphics Device' to 'Discrete Graphics'(Disables Intel integrated graphics)
-Change OS Detection for Nvidia Optimus to 'Disabled'
-Save and Exit

Screen(s) found, but none have a usable configuration

On a laptop, sometimes NVIDIA driver cannot find the active screen. It may be caused because you own a graphic card with vga/tv outs. You should examine Xorg.0.log to see what is wrong.

Another thing to try is adding invalid "ConnectedMonitor" Option to Section "Device" to force Xorg throws error and shows you how correct it. Here more about ConnectedMonitor setting.

After re-run X see Xorg.0.log to get valid CRT-x,DFP-x,TV-x values.

nvidia-xconfig --query-gpu-info could be helpful.

No brightness control on laptops

Try to add the following line on 20-nvidia.conf

Option "RegistryDwords" "EnableBrightnessControl=1"

If it still not working, you can try install nvidia-bl or nvidiabl.

Black Bars while watching full screen flash videos with twinview

Follow the instructions presented here: link

Backlight is not turning off in some occasions

By default, DPMS should turn off backlight with the timeouts set or by running xset. However, probably due to a bug in the proprietary Nvidia drivers the result is a blank screen with no powersaving whatsoever. To workaround it, until the bug has been fixed you can use the vbetool as root.

Install the vbetool package.

Turn off your screen on demand and then by pressing a random key backlight turns on again:

vbetool dpms off && read -n1; vbetool dpms on

Alternatively, xrandr is able to disable and re-enable monitor outputs without requiring root.

xrandr --output DP-1 --off; read -n1; xrandr --output DP-1 --auto

Blue tint on videos with Flash

An issue with flashplugin versions and causes it to send the U/V panes in the incorrect order resulting in a blue tint on certain videos. There are a few potential fixes for this bug:

  • Install libvdpau-git-flashpatchAUR from AUR
  • Patch vdpau_trace.so with this makepkg.
  • Right click on a video, select 'Settings...' and untick 'Enable hardware acceleration'. Reload the page for it to take affect. Note that this disables GPU acceleration.
  • Downgrade Flash to version at most
  • Use Google Chrome with the new Pepper API.
  • Try one of the few Flash alternatives.

The merits of each are discussed in this thread. To summarize: if you want all flash sites (youtube, vimeo, etc) to work properly in non-Chrome browsers, without feature regressions (such as losing hardware acceleration), without crashes/instability (enabling hardware decoding), without security concerns (multiple CVEs against older flash versions) and without breaking the vdpau tracing library from its intended purpose, the LEAST objectionable is to install libvdpau-git-flashpatchAUR.

Bleeding overlay with Flash

This bug is due to the incorrect colour key being used by the flashplugin version and causes the flash content to "leak" into other pages or solid black backgrounds. To avoid this issue simply export VDPAU_NVIDIA_NO_OVERLAY=1 within either your shell profile (E.g. ~/.bash_profile or ~/.zprofile) or ~/.xinitrc

Full system freeze using flash

If you experience occasional full system freezes (only the mouse is moving) using flashplugin and get

 # /var/log/errors.log
 NVRM: Xid (0000:01:00): 31, Ch 00000007, engmask 00000120, intr 10000000

a possible workaround is to switch off Hardware Acceleration in flash, setting

# /etc/adobe/mms.cfg

See also