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/*Again I put the paragraph with the example. I have no intention to create controversy. I think examples are important for those Debian users like me, who have poor skills in computer. The problem I have with the existing text is that I had read it several times and was unable to understand how to configure my nvidia card. Anyway, if you still believe that the paragraph is unnecessary and should be eliminated, will respect his decision. If you believe that the paragraph has errors, please correct it. For me it has been useful and could be useful for novice users.*/
===== Example. GeForce 8500 GT in lenny =====
If you run the [[attachment:nvidia-versions.sh|this script]] you get: "Your card is supported by the default drivers". After step 1, install the non-free driver:
# aptitude install nvidia-glx
Then edit your current X config file (/etc/X11/xorg.conf) as explained in the paragraph "The manual way (Lenny, Etch, Squeeze)".
In the absence of the "Module" section (as was my case), you will create like:
Section "Module"
Load "glx"
Line 251: Line 237:

 Debian 6.0 (Squeeze, currently testing):
 A new version of X will soon be in squeeze (probably after June 2009); the new X server autodetects the driver configuration very well. For open-source drivers, xorg.conf is not needed at all. For the nvidia driver, use this

Section "Device"
       Identifier "Configured Video Device"
       Driver "nvidia"

or for twinview (sharing the desktop across two screens)

Section "Device"
       Identifier "Configured Video Device"
       Driver "nvidia"

Section "Screen"
    Identifier "Screen0"
    Device "Configured Video Device"
    Option "TwinView" "True"
    Option "MetaModes" "nvidia-auto-select, nvidia-auto-select"

Translation(s): none

  • This document explains how to make use of NVIDIA video hardware on a Debian GNU/Linux system. The following section shortly describes the free drivers while the rest of the document covers the non-free but 3D-accelerated drivers.

free drivers

Debian has two free drivers that support NVIDIA cards. The vesa driver is a generic video driver. The nv driver usually gives better results. You can see which one is in use by looking at the output of

$ grep Driver /etc/X11/xorg.conf 2>&1|grep 'nv\|vesa'

You can simply configure X to change the free driver to use.

Neither of the free drivers support 3D acceleration. Only the non-free nvidia drivers support 3D. The non-free drivers are more complex and X is more likely to break. If X breaks and it seems difficult to get X to work with the non-free nvidia drivers, remember that switching back to a free driver should get X working again.

non-free drivers

Why use a Debian-specific method?

NVIDIA drivers can be installed using NVIDIA's official installer or the Debian driver packages. Each method has its advantages, but the Debian way is probably easier. Even when building a driver module manually, the Debian way is more reliable and probably will save labor in the long run.

NVIDIA's installer is documented at other places such as ?this one.

Whichever installation method, the troubleshooting section may help.

Comparison of nvidia-installer and the Debian way

Advantages of "the Debian way":

  • More automated, which saves work if the kernel is changed.
  • Uses Debian package management tools, so it's cleaner. If your system breaks after using the Debian way, that would be a bug which can be reported in the BTS.
  • Can be done while X is running. (X must be restarted to apply the driver change.)
  • Users of make-kpkg should find it fits easily into their existing build procedure.

  • No downloading files from nvidia.com, the Debian packages contain all necessary parts.

Advantages of NVIDIA's official installer:


How to install the NVIDIA 3D drivers, the Debian way.


The NVIDIA 3D drivers consist of two parts: a kernel module, and a collection of user-space libraries. The libraries (sometimes called the "binary driver" or GLX libraries) are distributed in binary form by NVIDIA, and are packaged for Debian in the nvidia-glx packages. Since NVIDIA's 3D drivers are not open source, non-free APT sources are needed to install them. The kernel module (aka the "kernel interface to the binary driver") is distributed in source form (though with one binary component), and packaged for Debian in the nvidia-kernel-source packages. The version numbers of the kernel module and user libraries must match. User libraries only need be installed once, but the kernel module must be recompiled every time the kernel is changed. What to do:

  • 0. Make sure APT has non-free and contrib sources (consult the sources.list(5) man page for help on doing this)

  • 1. Determine which version of the drivers should be installed.
  • 2. Install the kernel module
  • 3. Install the user-space GLX libraries
  • 4. Configure X to use the nvidia driver

Steps 3 and 4 need only be done once, but Step 2 is required every time the kernel is changed.


Choose a driver version

The current drivers do not support some legacy NVIDIA cards. Up to now, the NVIDIA drivers dropped support for some legacy cards 3 times. However, NVIDIA maintains the last driver version released before a legacy cards support drop. This means there are currently 4 drivers series maintained by NVIDIA. The first support drop happened in 2005, so the oldest legacy drivers series (71xx) should support cards released before 2005 but not those released after 2005. The second support drop happened in 2006, leading to the 96xx legacy drivers series. The third support drop happened in 2008, leading to the 173.14 legacy drivers series.

Debian Etch, Lenny and Squeeze only contain 2 drivers series from the 4 available. Due to the lacking versions, these suites do not officially support all NVIDIA cards, although it is possible to install unofficial packages if your card requires a drivers series not available in your suite. Lenny and Squeeze contain the second oldest drivers series, 96.43. Etch contains a previous version of the drivers, 1.0.8776, which supports the same cards as 96.43. Additionally, Etch contains the oldest drivers series, 71xx. Lenny and Squeeze contain the newest legacy series, 173.14. This means that Etch lacks support for new card, while Lenny and Squeeze lack support for the newest and oldest cards. The current version of the drivers is only available in Debian experimental.

The 71xx version is the only one to support RIVA TNT, RIVA TNT2/TNT2 Pro, RIVA TNT2 Ultra, Vanta/Vanta LT, RIVA TNT2 Model 64/Model 64 Pro, Aladdin TNT2, GeForce 256, GeForce DDR, Quadro, GeForce2 GTS/!?GeForce2 Pro, GeForce2 Ti, GeForce2 Ultra and Quadro2 Pro. The current version - which is ulterior to the latest version available in Etch - does not support GeForce2 and GeForce4 cards.

Debian distributes several versions of the drivers using several packages with different names. For example, user-space libraries from the current series are in the nvidia-glx package. In Etch, the older drivers are in the nvidia-glx-legacy package. However, with time, the current drivers become legacy drivers, so the nvidia-glx package in Etch is not current anymore.

Use current drivers if possible. Supported cards in Etch are listed in Appendix A of NVIDIA's 1.0-8776 driver README by NVIDIA chip name and Device PCI ID. If you do not use Etch, you can determine which cards are supported by consulting Appendix A of NVIDIA's 173.14.09 driver README.

Set a VERSION variable, which the rest of the instructions will refer to, to "-legacy", "-legacy-96xx", "-legacy-71xx" or an empty string. If you want to install the default version from your suite, there is no need to set VERSION to the empty string. To find the name of a card, you can try lspci. To determine which version you should use, you can run this script, which will propose to set VERSION.

Install the kernel module

Stock or custom kernel?

Some of the installation methods below depend on whether you're running a stock kernel, i.e. a prebuilt kernel from the Debian distribution. If you know which kind of kernel you have, you can skip to the following section.

By default, Debian comes with a stock kernel. If you don't know what kind of kernel you're running, then it's probably a stock kernel. If you're not sure, run

$ uname -r

and check if the output looks like 2.*.*-small number-architecture (e.g. or 2.6.18-6-486). If it does, you're most likely running a stock kernel.


There are four different methods for installing the kernel module.

Use module-assistant

This method is easy, and should work with most stock or custom kernels. For a custom kernel, you need to have its Linux headers installed.

It needs module-assistant and nvidia-kernel-common. To install them with apt-get:

# apt-get install module-assistant nvidia-kernel-common

Run the following command:

# m-a auto-install nvidia-kernel${VERSION}-source

And that's it. If all went well, your nvidia kernel module is now built and installed; you may proceed to step 3. If not, read the rest of this section.

You must use the same version of gcc to build your nvidia kernel module as was used to build your kernel. This might be a problem if you are running a stock kernel. If module-assistant fails, read its log output and look for messages suggesting that you need, for example, gcc-4.0 instead of gcc-4.1. Then install the corresponding package and retry auto-install.

The auto-install step is the biggest step of the procedure, and is the most likely to fail. auto-install can be divided in smaller module-assistant steps, which can help debugging:

  • get

  • build

  • install

If # m-a get nvidia; fails, try installing the nvidia-kernel-source package. If APT fails to install nvidia-kernel-source, you should go back to step 0 and make sure you didn't miss something.

If you are unable to install the module using module-assistant, try installing a pre-built module if you use a stock kernel or try to build manually, with a custom kernel.

Install a pre-built module

This method is easy if you're running a recent stock kernel for which a pre-built module is available; it will not work at all if you're running a custom kernel or Debian 4 with Linux 2.6.24. There are pre-built modules available for all the kernels installed by default by Debian Etch and Lenny. If the module-assistant method doesn't work for you and there are pre-built modules available for your kernel, use this method.

If you don't know your kernel version, run

$ uname -r

If there is a pre-built module for your kernel, install its package. The name starts with "nvidia-kernel-". This is followed by an indication of the drivers series you want (this string is empty for the default drivers series). The name ends by the identifier of your Linux image. For example, with apt-get:

# apt-get install nvidia-kernel${VERSION}-$(uname -r)

If this step succeeds, you may now proceed to step 3. If there are no pre-built modules for your kernel, and method 1 fails, you may want to try method 4.

Build manually, with a custom kernel

Use this method if you're configuring and building a custom kernel. This method is known to be possibly inexact or incomplete.

  1. Install the kernel module source. For example, with apt-get:
    # apt-get install nvidia-kernel${VERSION}-source

    This will install a source tarball in /usr/src/. Unpack it in /usr/src:

    $ cd /usr/src
    # tar -xf nvidia-kernel-*.tar.gz

    This will unpack the kernel module sources into /usr/src/modules/nvidia-kernel[something].

  2. Configure your kernel. This step isn't documented here; if you need to learn how, see the kernel-package documentation. But in summary, what you have to do is
    $ cd /usr/src/linux
    # make xconfig

    and then choose the options you want. Note, however, that each of the following kernel options has been reported to cause trouble with the nvidia driver:

    • Device drivers –> Graphics Support –> nVidia Riva support (FB_RIVA)

    • Device drivers –> Graphics support –> nVidia Framebuffer Support (FB_NVIDIA) (only found in kernels > 2.6.11)

    • Device drivers –> Graphics support –> VESA VGA graphics support (FB_VESA)

    • Processor Type and Features –> Local APIC support on uniprocessors (X86_UP_APIC) (not available if you have an SMP kernel, including hyperthreading)

    It is therefore recommended that you disable all of the above options in your kernel configuration. If for some reason you don't disable them, and then your X display doesn't work properly with the nvidia driver, you should suspect these options as the likely cause of the trouble. For more details, see the Troubleshooting section.

  3. Build the kernel and the nvidia kernel module:

    # make-kpkg clean
    # make-kpkg kernel_image modules_image

    For an introduction to using make-kpkg to build kernel packages, see Creating custom kernels with Debian's kernel-package system, or Compiling Kernels the Debian Way. See also the make-kpkg(1) man page, for a description of other options and targets that you can use in this command. The result of the above command will be two Debian package files, linux-image-*.deb and nvidia-kernel-*.deb, both in /usr/src or /usr/src/modules. The first file contains your kernel, and the second contains your nvidia kernel module.
    At the same time, if you have sources for any other add-on kernel modules in /usr/src/modules, then the "modules_image" target will cause make-kpkg to build Debian package files for them, too. For example, if you install the fuse-source package you'll get a source archive /usr/src/fuse.tar.gz, which you can unpack to get fuse module sources in /usr/src/modules/fuse. If you've done this, then this same invocation of make-kpkg will also build a fuse module package file, /usr/src/fuse-*.deb, that's specific to your new kernel.

  4. Install the new kernel and kernel module:
    $ cd /usr/src
    # dpkg -i /path/linux-image-*.deb /path/nvidia-kernel-*.deb
    Use the fileglobs as above if you want, but watch out that you don't have more than one Linux image or nvidia-kernel package file lying around in /usr/src. If you do you'll get a blizzard of error messages. It's probably better to explicitly type all of the version information rendered as * above.
  5. Boot your new kernel. Before trying to get the NVIDIA 3D drivers to work, make sure that the new kernel boots and that X starts well using a free X driver.

Proceed to step 3.

Build manually, with a stock kernel

Use this method if you're running a stock kernel and the two first methods failed. module-assistant should automate this process. In other words, if the first method failed but this one works, you should probably submit a bug report against module-assistant.

The following procedure is adapted from the instructions in /usr/share/doc/nvidia-kernel-source/README.Debian and is known to be potentially inexact.

  1. Save the release number of your kernel (e.g. 2.4.27-2-k7 or 2.6.8-1-686) in a couple of environment variables:
    export KVERS=$(uname -r)
    export KSRC=/usr/src/linux-headers-$KVERS
    Note that these variables are used by the build commands below, so you really do need to set and export them, as in the above commands.
  2. Install the kernel module source: run
    apt-get install nvidia-kernel-source nvidia-kernel-common
    This will give you a source tarball /usr/src/nvidia-kernel-source.tar.gz. Unpack it with
    cd /usr/src
    tar -zxf nvidia-kernel-source.tar.gz
    This will unpack the kernel module sources into /usr/src/modules/nvidia-kernel. In case there is no such tarball, but /usr/src/nvidia-kernel.tar.bz2, unpack it with
    cd /usr/src
    tar -jxf nvidia-kernel.tar.bz2
  3. Install the header files for your kernel:
    apt-get install linux-headers-$KVERS
    This will give you kernel header files in /usr/src/linux-headers-$KVERS. Be sure to check that the installed kernel image and kernel header packages have the same version number: run
    apt-cache policy kernel-image-$KVERS linux-headers-$KVERS
    and check that the version number listed as Installed is the same for both packages. If it isn't, find the distribution that has the version of linux-headers that you need, e.g. testing, and rerun the above installation command, adding '-t testing' (or whichever).
  4. Build the kernel module package:
    cd /usr/src/modules/nvidia-kernel
    debian/rules binary_modules
    The result will be a package file /usr/src/nvidia-kernel-*.deb, which contains your kernel module. Note: several users have told me recently that their nvidia package file ends up in /usr/src/modules, instead of /usr/src. I don't know yet why this happens. If this is your case, please adjust the next command appropriately.
  5. Install the kernel module:
    dpkg -i /usr/src/nvidia-kernel-*.deb
    Use the fileglob as above if you want, but watch out that you don't have more than one nvidia-kernel package file lying around in /usr/src. If you do you'll get a blizzard of error messages. It's probably better to explicitly type all of the version information that I rendered as * above.

Now proceed to step 3, below.

Install the NVIDIA user-space libraries

Install the user-space libraries package. For example, with apt-get:

# apt-get install nvidia-glx${VERSION}

Note: The reason this step has to come after step 2 is that nvidia-glx depends on a virtual package called 'nvidia-kernel-$NVVERSION', where $NVVERSION is the upstream part of the version of the nvidia-glx package. This virtual package should be provided by the kernel module package that you installed in step 2; so you have to complete that step first. If the installation of nvidia-glx fails because the 'nvidia-kernel-$NVVERSION' isn't satisfied, you should probably make sure that step 2 went OK.

Configure X to use the nvidia driver

The method to configure the X server is dependent on your Debian version:

  • Debian 6.0 (Squeeze, currently testing): A new version of X will soon be in squeeze (probably after June 2009); the new X server autodetects the driver configuration very well. For open-source drivers, xorg.conf is not needed at all. For the nvidia driver, use this

Section "Device"
       Identifier   "Configured Video Device"
       Driver      "nvidia"

or for twinview (sharing the desktop across two screens)

Section "Device"
       Identifier   "Configured Video Device"
       Driver      "nvidia"

Section "Screen"
    Identifier     "Screen0"
    Device         "Configured Video Device"
    Option         "TwinView" "True"
    Option         "MetaModes" "nvidia-auto-select, nvidia-auto-select"
Debian 5.0 (Lenny):

The manual way, as debconf no longer presents an X server driver selection dialog.

Debian 4.0 (Etch):

Either the debconf way or the manual way. The one you should use depends on whether you manually edited your X configuration file. If you don't know if you did, you probably didn't. If you choose the debconf way but you did edit your X config file, the manual changes you did will be ignored in the new xorg.conf. To make sure, run the following command:

$ md5sum /etc/X11/xorg.conf|diff -sq /var/lib/x11/xorg.conf.md5sum -

If the files differ, choose the second way (the manual way).

The manual way (Lenny, Etch, Squeeze)

Consider backing up your current X config file:

# cp -p /etc/X11/xorg.conf /etc/X11/xorg.conf.bak

Watch out for typos, and check your X log if things go wrong.

Edit /etc/X11/xorg.conf:

  • If it contains a "Module" section, be sure that it contains a line:
    Load "glx"
    and remove or comment out (prepend with a #) any lines that refer to the "dri" or "GLCore" modules.
  • In the "Device" section for your video card, change the driver (normally nv or vesa) to nvidia. If the driver is not defined, add the line

    Driver "nvidia"

The debconf way (Etch only)

Not configurable in DebianLenny. Use the manual way above.


# dpkg-reconfigure xserver-xorg

This will ask you questions, some of which you should have already seen when you installed Debian. You only need to change your answer to 2 of those questions. When asked to choose an X server driver, choose nvidia. Then, when asked to select X server modules, deselect (uncheck) dri, and select (check) glx.

Your previous configuration will be backed up.

Restart X

This is the easiest but probably most crucial step. If it doesn't work for some reason, and you want to get back to X before fixing the problem, you'll have to revert step 4 (by choosing a free X driver again). When you think you fixed the problem, you can do step 4 again and retry starting X. Remember that even if it works you'll want to read the next section to avoid future trouble. And if it doesn't...check the Troubleshooting section.

If you don't use a display manager, simply close your session. That should bring to a console. If it doesn't, you must be using a display manager (such as gdm, kdm or xdm). First identify which one you're using. If you don't know, it's probably gdm. You can know by checking whether a process ending with "dm" is running. Once you determined which one you use, close your session and go run the appropriate init script in a console. Here's an example for gdm:

# invoke-rc.d gdm restart

Alternatively, you can simply press Alt+E at the login screen if you use kdm. If you can't figure out how to restart X with those instructions, you can simply reboot your system. Otherwise, the keyboard shortcut Ctrl+Alt+Backspace should be reliable, despite being somewhat "unfriendly".

Check that it worked

To check that the acceleration is working, glxinfo can be used. This program is in the mesa-utils package. If

$ glxinfo |grep rendering

returns "direct rendering: Yes", acceleration is working. If it returns No, see section "Hardware acceleration, aka direct rendering, doesn't work". If it returns Yes, 3D acceleration (in games such as PlanetPenguin Racer and Neverball) should work. If it works in these games but not in a particular application you expected to be able to use, check section "Some old game doesn't start".

How to deal with kernel changes and driver upgrades

Steps 3 and 4 are done for good. However, you'll have to repeat step 2 in certain situations. If you don't realize such a situation happens, X will fail to start. You can take two approaches with this: either remember when this will happen and try to prevent it, or remember to come back here when your X fails to start. Either way, you're not done for life. If X fails to start because of this, you can again revert step 4 (by choosing a free X driver again) and redo it when you want to retry using the nvidia driver for X.


Step 2 installs an nvidia kernel module for a specific kernel and NVIDIA driver version. You'll have to do it for each kernel, and you'll have to redo it for each new driver version. If you don't know what this means, read on.

...will the NVIDIA driver version change

If you're using Debian stable, this won't happen until you upgrade to the next Debian release, but it will happen then.

In all cases, this will happen when the nvidia-glx package is upgraded. All versions of nvidia-glx depend on an nvidia-kernel-version virtual package. When you followed step 2, you installed a package providing this virtual package. However, if you upgrade nvidia-glx before doing step 2 again, APT will attempt to satisfy the virtual package by installing a basically randomly chosen prebuilt kernel module. You'll notice some new nvidia-kernel-something package being installed (or upgraded if you already had it). Instead of letting it do, do step 2 again to get an appropriate kernel module. Then, the virtual package will be satisfied and you can upgrade nvidia-glx safely and without installing a useless package.

...will your kernel change

If you build other modules using module-assistant, you have to redo step 2 everytime you'd have to run module-assistant for other modules, that is for every new kernel ABI. If you don't know what that means, read on.

If you install a kernel with a new ABI, a new Linux image package will be installed. For example, if the Linux 2.6.18 gets a new ABI and you currently use linux-image-2.6.18-4-486, you will have to install the kernel-image-2.6.18-5-486 package to get the new kernel (the "-4" and "-5" part of the package names indicate respectively that these packages contain the fourth and fifth ABI of Debian's 2.6.18 i386 stock kernels). This may happen without your intervention when upgrading your system if the linux-image-2.6-486 meta package is installed. This can also happen if you install a different kernel. For example, you can have both 2.6.18 and 2.6.24 in Etch. If you did step 2 for 2.6.18 only, you'll need to do it for 2.6.24 too. You'll notice that a new kernel is installed when a new linux-image-something package is installed. X will fail to start after you booted a new kernel until you perform step 2 for that kernel.


X doesn't start

  • Check that you have device files /dev/nvidia0 and /dev/nvidiactl:
    $ ls -l /dev/nvidia*
    crw-rw----    1 root     video    195,   0 date /dev/nvidia0
    crw-rw----    1 root     video    195, 255 date /dev/nvidiactl

    In Sarge, those files should be created by udev or devfs when the nvidia kernel module is loaded. If the module is loaded but the files aren't created, you should verify that either udev or devfs is working correctly. If you use a kernel above 2.6.12, nvidia-kernel-common's /etc/init.d/nvidia-kernel is responsible for creating those files.

  • Make sure that your problem is related to the nvidia driver. Try switching back to a free driver. Then restart your X server. If it still won't start, then you have other problems that precede NVIDIA's drivers.

X (or the complete machine when running X) is unstable

  • Check whether you use a framebuffer, such as rivafb, nvidiafb and vesafb. The rivafb driver is known to conflict with NVIDIA's drivers. vesafb is known to work in some cases but also to be problematic in other cases. All of these drivers are compiled as modules in stock kernels, except for vesafb after 2.6.12. To see if you have one of these modules inserted in your kernel, run
    $ lsmod|grep 'rivafb\|vesafb\|nvidiafb'
    If this outputs something, get rid of the module(s) displayed.
    # rmmod rivafb vesafb nvidiafb

    will remove the modules temporarily (for this boot). If something causes one of the modules to load automatically at boot, blacklist the modules. If you are using a custom kernel, do not compile these modules in (Device drivers –> Graphics support –> nVidia Riva support (FB_RIVA), Device drivers –> Graphics support –> VESA VGA graphics support (FB_VESA) and Device drivers –> Graphics support –> nVidia Framebuffer Support (FB_NVIDIA)).

Hardware acceleration, aka direct rendering, doesn't work

We've covered how to check that the installation worked in section "Check that it worked". If it doesn't, check that you adjusted your X configuration properly. You can do so by checking that

$ grep Driver /etc/X11/xorg.conf 2>&1|grep nvidia

returns something. If this is the case and X was restarted since the configuration was changed, you may be affected by Debian bug #208198. You can check if this is the case by running

$ glxinfo | egrep "glx (vendor|version)"

If you see different vendors or versions for the client and server, this is your problem. In that case you can run

# NVVER=`dpkg -s nvidia-glx|grep Version|cut -d ' ' -f2|cut -d '-' -f1`
# ln -fs /usr/lib/libGL.so.$NVVER /usr/X11R6/lib/libGL.so
# ln -fs /usr/lib/libGL.so.$NVVER /usr/X11R6/lib/libGL.so.1
# ln -fs          libGL.so.$NVVER /usr/lib/libGL.so.1.2

to fix the problem.

If that's not your problem but you get an error when trying to use OpenGL apps like glxinfo that looks like this one:

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

you should make sure that the user running the application is in the video group.

Various problems with X

Look in your X log file (/var/log/Xorg.0.log). The X server writes a lot of information there about what configuration files it's reading, what display modes it's trying, and errors (EE) it encounters along the way. You can very often find hints there to the source of whatever problem you're having.

"nvidia license taints kernel"

If you get such a warning message on your console or in your syslog, don't worry. Your kernel is fine...or at least as fine as a kernel that can run NVIDIA's 3D driver can be. All this message means is that because your driver isn't open source, you won't get any support from the Linux maintainers if anything goes wrong with your kernel while the module is loaded. See the LKML FAQ for more.

Last resort

You can check the NVIDIA Linux Forum at nvnews.net for issues not related to Debian packaging. For Debian-specific issues, you may look at the bug tracking system or ask a question on Debian help resources, such as the debian-user mailing list and #debian on irc.debian.org. If you still have a problem that you can't solve, you can write and tell the author about it. He'll do what he can to help, subject to his knowledge and time constraints.

More information

  • For more information about the drivers, see:
    • /usr/share/doc/nvidia-glx/README.Debian
    • /usr/share/doc/nvidia-glx/README.txt.gz

    These files have loads of information about options and for troubleshooting NVIDIA's proprietary drivers. Here's an enticement for you to read them: somewhere in one of them you can find an explanation of how to suppress the NVIDIA splash screen every time you start an X server (hint: search for "NoLogo").

  • You can adjust the clock rates of your GPU and video RAM by running nvclock, nvclock_gtk, or nvclock_qt, available respectively in the nvclock, nvclock-gtk, and nvclock-qt packages. Obligatory warning: you can destroy your video hardware with these tools if you're not careful.
  • You can adjust some other, relatively obscure settings of the driver by running nvidia-settings, available in the nvidia-settings package.

About this document

This wiki page was created by Filipus Klutiero to publish an update to Andrew's Debian-nVidia HOWTO. You are free to modify this page as long as you agree to let copyright of your changes to the author. For problems, comments, or questions about the information in this document, you can write to the maintainer. He's no expert, but he'll do his best to make the document useful.


Thanks to Andrew Schulman for publishing his HOWTO, agreeing to share his rights on it, and making the HOWTO link to this page since it stopped being maintained.


This document is Copyright 2005, by Andrew E. Schulman. Permission is hereby granted to freely copy, distribute, and/or modify any of the contents of this document in any way and for any purpose.

See also