Difference between revisions of "AMD Catalyst"

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(Installing from the unofficial repository)
(Installing from the unofficial repository)
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{{Note|If pacman asks you about removing '''libgl''' you can safely do so.}}
{{Note|If pacman asks you about removing '''libgl''' you can safely do so.}}
If you are on 64-bit and also need 32-bit OpenGL support, install {{Pkg|lib32-catalyst-utils}} from the [[multilib]] repository.
If you are on 64-bit and also need 32-bit OpenGL support:
# pacman -S lib32-catalyst-utils
Both repositories also contain other packages, that can ''replace'' the Catalyst package and provide fglrx modules for ''multiple'' kernels that are installed on your system:
Both repositories also contain other packages, that can ''replace'' the Catalyst package and provide fglrx modules for ''multiple'' kernels that are installed on your system:

Revision as of 11:02, 7 April 2013

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Owners of ATI/AMD video cards have a choice between AMD's proprietary driver (catalystAUR) and the open source driver (xf86-video-ati). This article covers the proprietary driver.

AMD's Linux driver package catalyst was previously named fglrx (FireGL and Radeon X). Only the package name has changed, while the kernel module retains its original fglrx.ko filename. Therefore, any mention of fglrx below is specifically in reference to the kernel module, not the package.

As of October 2012, binary packages are being offered. Currently, packages are available in the [community] repository, but it's unknown what will happen when an Xorg upgrade will break the driver. In the past, Catalyst has been dropped from official Arch support because of dissatisfaction with the quality and speed of development. Also, a legacy driver for Radeon HD 2xxx 3xxx 4xxx is not available in [community] yet. For more information, see this this forum post and onwards.

Compared to the open source driver, Catalyst performs worse in 2D graphics, but has a better support for 3D rendering. Supported devices are ATI/AMD Radeon video cards with chipset R600 and newer (as of Catalyst 9.4). See this table, or the Xorg "Decoder ring", to translate model names (X1900, HD4850) to/from chip names (R580, RV770 respectively).



There are four ways of installing Catalyst on your system. One way is to use the official [community] repository, but this does not contain the legacy driver. Another one is to use Vi0L0's (Arch's unofficial Catalyst maintainer) repository. This repository does contain all the necessary packages. The third method you can use is the AUR; PKGBUILDs offered here are also made by Vi0L0 and are the same he uses to built packages for his repository. Lastly, you can install the driver directly from AMD.

Before choosing the method you prefer, you will have to see which driver you need. Since Catalyst 12.4, AMD has separated its development for Radeon HD 2xxx, 3xxx and 4xxx cards into the legacy Catalyst driver. For Radeon HD 5xxx and newer, there is the regular Catalyst driver. Regardless of the driver you need, you will also need the Catalyst utilities.

Note: After the instructions for every method of installing, you will find general instructions everyone has to perform, regardless of the method you used.

Installing the driver

Installing from the official repository

This is the most simple and straightforward way, as it requires no unofficial repositories and because this package uses DKMS to automatically rebuilt the kernel modules when the kernel is upgraded. If this repository holds the packages you need, it is suggested you take this one.

To install Catalyst, install catalyst-dkms and catalyst-utils from the official repositories.

Note: If pacman asks you about removing libgl you can safely do so.
Note: If you intend to use DKMS don't forget to install linux-headers and enable the dkms.service service.

If you are on 64-bit and also need 32-bit OpenGL support, install lib32-catalyst-utils from the multilib repository.

If you need OpenCL support, install opencl-catalyst.

Later on, a legacy driver will also be offered here.

Installing from the unofficial repository

If you need packages that currently aren't hosted by the official repository and don't fancy building the packages from the AUR, this is the way to go. The repository is maintained by our unofficial Catalyst maintainer, Vi0L0. All packages are signed and I consider them safe to use. As you will see later on in this article, Vi0L0 is also responsible for many other packages that will help you get your system working with your ATI graphic cards.

Vi0L0 has three different Catalyst repositories, each having different drivers:

  • [catalyst]; for the regular Catalyst driver needed by Radeon HD 5xxx and up, it contains the latest (stable or beta) Catalyst release;
  • [catalyst-stable]; for the regular Catalyst driver needed by Radeon HD 5xxx and up, with the latest stable driver;
  • [catalyst-hd234k]; for the legacy Catalyst driver needed by Radeon HD 2xxx, 3xxx and 4xxx cards.
Warning: The Legacy driver does not support Xorg 1.13 or 1.14 for now. Support should be added by AMD in a century or two, but this could be sooner. Should you want to use this driver, see #Xorg repositories for instructions on how to roll back to or hold back Xorg 1.12.

To enable one of these, you will have to edit /etc/pacman.conf and add the repository of choice's information above all other repositories in /etc/pacman.conf.

  • For [catalyst], add:
Server = http://catalyst.wirephire.com/repo/catalyst/$arch
  • For [catalyst-stable], add:
Server = http://catalyst.wirephire.com/repo/catalyst/$arch
  • For [catalyst-hd234k], add:
Server = http://catalyst.wirephire.com/repo/catalyst-hd234k/$arch

You must also add Vi0L0's GPG key so that pacman trusts the repositories.

# pacman-key --keyserver pgp.mit.edu --recv-keys 0xabed422d653c3094
# pacman-key --lsign-key 0xabed422d653c3094

Once you have added this, update pacman's database and install the packages:

# pacman -Syu
# pacman -S catalyst catalyst-utils
Note: If pacman asks you about removing libgl you can safely do so.

If you are on 64-bit and also need 32-bit OpenGL support:

# pacman -S lib32-catalyst-utils

Both repositories also contain other packages, that can replace the Catalyst package and provide fglrx modules for multiple kernels that are installed on your system:

  • catalyst-generator; this package is able to generate fglrx modules packed into pacman compliant packages - most secure and KISS-compatible package in this side-note, although it has to be operated manually.
  • catalyst-hook; A hook for mkinitcpio which will automatically update fglrx modules with every kernel's update. This is basically the same as catalyst-dkms from [community].

You will find more details about those packages in Tools section. Lastly, both repositories also contain the xvba-video package, which enables video acceleration, described in #Video acceleration and the AMDOverdriveCtrl package, which is a GUI to control over- and underclocking, also described in #GPU/Mem frequency, Temperature, Fan speed, Overclocking utilities.

Installing from the AUR

The last way to install Catalyst is from the AUR. If you want to built the packages specifically for your computer, this is your way to go. Note that this is also the most tedious way to install Catalyst; it requires the most work and also requires manual updates upon every kernel update.

Warning: If you install the Catalyst package from the AUR, you will have to rebuild Catalyst every time the kernel is updated. Otherwise X will fail to start.
Warning: The Legacy driver does not support Xorg 1.13 for now. Support should be added by AMD in a century or two, but this could be sooner. Should you want to use this driver, see #Xorg repositories for instructions on how to roll back to or hold back Xorg 1.12.

All packages mentioned above in Vi0L0's unofficial repository are also available on the AUR:

The AUR also holds some packages that are not found in any of the repositories. These packages contain the so-called Catalyst-total packages and the beta versions:

The Catalyst-total packages are made to make the lives of AUR users easier. It builds the driver, the kernel utilities and the 32 bit kernel utilities. It also builds the Catalyst-hook package, which is explained above.

Catalyst-total-pxp builds Catalyst with experimental powerXpress support.

For more information on building from the AUR, read Installing from AUR.

Installing directly from AMD

Warning: Using the installer from ati.com/amd.com is not recommended! It may cause file conflicts and X failures and you will miss Arch-specific fixes. You must be familiar with booting to the command-line if you wish to attempt this.
Note: If you have attempted a manual install from the official installer and cannot recover your desktop:
# /usr/share/ati/fglrx-uninstall.sh

1.) Download the installer from AMD or elsewhere (whereas *-* will be the version): ati-driver-installer-*-*-x86.x86_64.run

2.) Make sure it's executable: # chmod +x ati-driver*

3.) Ensure you're using a basic video driver like vesa and remove conflicting drivers (i.e. xf86-video-ati) with pacman.

4.) Symlink /usr/src/linux to /usr/src/{kernelsource}. 64-bit users also symlink/usr/lib64 to /usr/lib.

5.) Be sure to have your build environment setup: # pacman -Syu base-devel linux-headers

6.) Now run # ./ati-driver-installer-*-*-x86.86_64.run (Files will extract to a temporary folder and scripts will run...)

Assuming nothing went horribly wrong...

7.) Check /usr/share/ati/fglrx-install.log for issues. There should also be a /lib/modules/fglrx/make.{ker_version}.log.

Note: If you modify the make scripts, save to a different filename. Otherwise uninstall will not complete successfully.

Configuring the driver

After you have installed the driver via your chosen method, you will have to configure X to work with Catalyst. Also, you will have to make sure the module gets loaded at boot. Also, one should disable kernel mode setting.

Configuring X

To configure X, you will have to create an xorg.conf file. Catalyst provides its own aticonfig tool to create and/or modify this file. It also can configure virtually every aspect of the card for it also accesses the /etc/ati/amdpcsdb file. For a complete list of aticonfig options, run:

# aticonfig --help | less
Warning: Use the --output option before committing to /etc/X11 as an xorg.conf file will override anything in /etc/X11/xorg.conf.d
Note: If you want to adhere to the new xorg.conf.d: Append your aticonfig string with --output so that you can adapt the Device section to /etc/X11/xorg.conf.d/20-radeon.conf. The drawback of this is that many aticonfig options rely on an xorg.conf, and thus will be unavailable.

Now, to configure Catalyst. If you have only one monitor, run this:

# aticonfig --initial
Note: If you have PowerXpress problem you should probably install catalyst-utils-pxp

However, if you have two monitors and want to use both of them, you can run the command stated below. Note that this will generate a dual head configuration with the second screen located above the first screen.

# aticonfig --initial=dual-head --screen-layout=above
Note: See #Double Screen (Dual Head / Dual Screen / Xinerama) for more information on setting up dual monitors.

You can compare the generated file to one of the Sample Xorg.conf examples listed on the Xorg page.

Although the current Xorg versions auto-detect most options when started, you may want to specify some in case the defaults change between versions.

Here is an example (with notes) for reference. Entries with '#' should be required, add entries with '##' as needed:

Section "ServerLayout"
        Identifier     "Arch"
        Screen      0  "Screen0" 0 0          # 0's are necessary.
Section "Module"
        Load ...
Section "Monitor"
        Identifier   "Monitor0"
Section "Device"
        Identifier  "Card0"
        Driver      "fglrx"                         # Essential.
        BusID       "PCI:1:0:0"                     # Recommended if autodetect fails.
        Option      "OpenGLOverlay" "0"             ##
        Option      "XAANoOffscreenPixmaps" "false" ##
Section "Screen"
        Identifier "Screen0"
        Device     "Card0"
        Monitor    "Monitor0"
        DefaultDepth    24
        SubSection "Display"
                Viewport   0 0
                Depth     24                        # Should not change from '24'
                Modes "1280x1024" "2048x1536"       ## 1st value=default resolution, 2nd=maximum.
                Virtual 1664 1200                   ## (x+64, y) to workaround potential OGL rect. artifacts/
        EndSubSection                               ## fixed in Catalyst 9.8
Section "DRI"
        Mode 0666                                   # May help enable direct rendering.
Note: With every Catalyst update you should remove amdpcsdb file in this way: kill X, remove /etc/ati/amdpcsdb, start X and then run amdcccle - otherwise the version of Catalyst may display wrongly in amdcccle.

If you need more information on Catalyst, visit this thread.

Loading the module at boot

Note: Users of the [community] package do not have to do this, it's automatically done for them when installing the package.

We have to blacklist the radeon module to prevent it from auto-loading. To do so, blacklist radeon in /etc/modprobe.d/modprobe.conf. Also, make sure that it is not loaded by any file under /etc/modules-load.d/. For more information, see blacklisting in this article.

Then we will have to make sure that the fglrx module gets auto-loaded. Either add fglrx on a new line of an existing module file located under /etc/modules-load.d/, or create a new file and add fglrx.

Disable kernel mode setting

Disabling kernel mode setting is important, as the driver doesn't take advantage of KMS yet. If you do not deactivate KMS, your system might freeze when trying to switch to a tty or even when shutting down via your DE.

For GRUB Legacy, edit menu.lst by adding nomodeset to the kernel parameters. For example:

kernel /boot/vmlinuz-linux root=/dev/sda1 ro nomodeset

For GRUB 2, edit /etc/default/grub and add nomodeset to the kernel parameter options, e.g.


Then run, as root;

# grub-mkconfig -o /boot/grub/grub.cfg

For Syslinux, edit /boot/syslinux/syslinux.cfg and add nomodeset to the APPEND line, e.g.:

APPEND root=/dev/sda2 ro nomodeset

Checking operation

Assuming that a reboot to your login was successful, you can check if fglrx is running properly with the following commands:

$ lsmod | grep fglrx
$ fglrxinfo

If you get output, it works. Finally, run X with startx or by using GDM/KDM and verify that direct rendering is enabled by running the following command in a terminal:

$ glxinfo | grep "direct rendering"

If it says "direct rendering: yes" then you're good to go! If the glxinfo command is not found install the mesa-demos package.

Note: You can also use:
$ fgl_glxgears

as the fglrx alternative test to glxgears.

Warning: In recent versions of Xorg, the paths of libs are changed. So, sometimes libGL.so cannot be correctly loaded even if it's installed. Check this if your GL is not working. Please read "Troubleshooting" section for details.

If you have trouble, see #Troubleshooting.

Custom Kernels

To install catalyst for a custom kernel, you'll need to build your own catalyst-$kernel package.

If you are at all uncomfortable or inexperienced with making packages, read up the ABS wiki page first so things go smoothly.

  1. Obtain the PKGBUILD and catalyst.install files from Catalyst.
  2. Editing the PKGBUILD. Two changes need to be made here:
    1. Change pkgname=catalyst to pkgname=catalyst-$kernel_name, where $kernel_name is whatever you want (e.g. custom, mm, themostawesomekernelever).
    2. Change the dependency of linux to $kernel_name.
  3. Build your package and install; run makepkg -i or makepkg followed by pacman -U pkgname.pkg.tar.gz
Note: If you run multiple kernels, you have to install the Catalyst-utils packages for all kernels. They won't conflict with one another.
Note: Catalyst-generator is able to build catalyst-{kernver} packages for you so you do not actually need to perform all those steps manually. For more information, see Tools section.

PowerXpress support

PowerXpress technology allows switching notebooks with dual-graphic capability from integrated graphics (IGP) to discrete graphics either to increase battery life or to achieve better 3D rendering capabilities.

To use such functionality on Arch you will have to:

  • Get and build catalyst-total-pxpAUR package from the AUR, or
  • Install catalyst-utils-pxp package from the [catalyst] repository (plus additional lib32-catalyst-utils-pxp, if needed).

To perform a switch into Intel's IGP you will also have to install the mesa-libgl package and Intel's drivers: xf86-video-intel and intel-dri.

Note: With the latest version of Catalyst, version 13.1 (not Catalyst legacy) ChrisXY was able to work on the newest xorg-server (version 1.13.1), mesa 9.0.1 and xf86-video-intel 2.20.18.

On any version of Catalyst below 13.1 (and all versions of Catalyst legacy) there are some problems with the new Intel drivers and the last noted working version of xf86-video-intel is 2.20.2-2, so you will probably have to downgrade from the latest version that you have gotten from Arch's repositories (although we recommend to test the newest one before downgrading - there's always some possibility that it will work).

xf86-video-intel 2.20.2-2 works only with xorg-server 1.12 and so it is a part of the xorg112 repository. If you want to use it you will have to downgrade xorg-server as well. For information on this, see #Xorg repositories.

Now you can switch between the integrated and the discrete GPU, using these commands:

# aticonfig --px-igpu    #for integrated GPU
# aticonfig --px-dgpu    #for discrete GPU

Just remember that fglrx needs /etc/X11/xorg.conf configured for AMD's card with 'fglrx' inside.

You can also use the pxp_switch_catalyst switching script that will perform some additional usefull operations:

  • Switching xorg.conf - it will rename xorg.conf into xorg.conf.cat (if there's fglrx inside) or xorg.conf.oth (if there's intel inside) and then it will create a symlink to xorg.conf, depending on what you chose.
  • Running aticonfig --px-Xgpu.
  • Running switchlibGL.
  • Adding/removing fglrx into/from /etc/modules-load.d/catalyst.conf.


# pxp_switch_catalyst amd
# pxp_switch_catalyst intel

If you have got problems when you try to run X on Intel's driver you may try to force "UXA" acceleration; just make sure that your xorg.conf for Intel's GPU got Option "AccelMethod" "uxa", like here:

Section "Device"
   Identifier  "Intel Graphics"
   Driver      "intel"
   #Option      "AccelMethod"  "sna"
   Option      "AccelMethod"  "uxa"
   #Option      "AccelMethod"  "xaa"

Running two X servers (one using the Intel driver, another one using fglrx) simultaneously

Because fglrx is crash-prone (regarding PowerXpress), it could be a good idea to use the Intel driver in the main X server and have a secondary X server using fglrx when 3D acceleration is needed. However, simply switching to the discrete GPU from the integrated GPU using aticonfig or amdcccle will cause all sorts of weird bugs when starting the second X.

To run two X servers at the same time (each using different drivers), you should firstly set up a fully working X with Catalyst and then move its xorg.conf to a temporary place (for example, /etc/X11/xorg.conf.fglrx. The next time X is started, it will use the Intel driver by default instead of fglrx.

To start a second X server using fglrx, simply move xorg.conf back to the proper place (/etc/X11/xorg.conf) before starting X. This method even allows you to switch between running X sessions. When you are done using fglrx, move xorg.conf somewhere else again.

The only disadvantage of this method is not having 3D acceleration using the Intel driver. 2D acceleration, however, is fully functional. Other than that, this will provide us with a completely stable desktop.

Xorg repositories

Catalyst is notorious for its slow update process. As such, it is common that a new Xorg version is pushed down from upstream that will break compatibility for Catalyst. This means that Catalyst users either have to hold the Xorg packages from updating, or use a backported repository that only contains the Xorg packages that should be hold back. Vi0L0 has stepped in to fulfil this task and provides several backported repositories.

If you want to use pacman to hold back packages from updating, see skip package from being upgraded. Packages you should hold back, are:

  • xorg-server-*
  • xf86-input-*
  • xf86-video-*

If you want to use the backported repositories, you have to edit /etc/pacman.conf and add the information of the repository above all other repositories, even above your Catalyst repository, should you use one.


Catalyst doesn't support xorg-server 1.14.

Server = http://catalyst.wirephire.com/repo/xorg113/$arch


Catalyst < 12.10 doesn't support xorg-server 1.13.

Server = http://catalyst.wirephire.com/repo/xorg112/$arch


Catalyst < 12.6 doesn't support xorg-server 1.12.

Server = http://catalyst.wirephire.com/repo/xorg111/$arch



Catalyst-hook is a hook for mkinitcpio that will automatically update fglrx modules with every kernel update.

The hook will call the catalyst_build_module command to update fglrx module for the version of your new kernel. Additionally, it can call the catalyst_build_module remove command to remove the now old and unneeded flgrx module(s).

Warning: Pacman 4.1 removed the SyncFirst option. This means that one can no longer force an update of linux-headers before compiling Catalyst.

In other words, this means that the automatic re-compilation of the fglrx module won't work properly on kernels with separated headers.

If you are using such a kernel, like linux or linux-lts, you will have to use Catalyst-hook like this: catalyst_build_module all after the kernel update and before rebooting.

Note: If you are using this functionality it's important to look at the installation process of the linux kernel (or any other kernel) package. Catalyst-hook will tell you is everything all right.
Note: If your custom kernel is using some non-standard mkinitcpio configuration file (ie. linux-zen is using /etc/mkinitcpio-zen.conf) you'll have to manually add fglrx to HOOKS array in your non-standard configuration file so it can be auto-recompiled with a kernel update.
Note: If you aren't using the stock linux kernel at all and still want to use auto-recompilation, you should remove linux-headers from the SyncFirst list of /etc/pacman.conf after running 'catalyst_build_module auto'. If you also have custom linux-headers, you can swap linux-headers in the SyncFirst line with your custom one, for example linux-lts-headers.

This is basically the same as catalyst-dkms from [community]... not - just to clarify things:

- catalyst-hook does not need dkms to work, dkms is far more complex than mkinitcpio's hook;

- catalyst-hook does not need additional mkinitcpio's hook to make you sure that your X/DM will start after kernel's update (dkms is normally building modules at system's startup, and often X/DM will try to start before dkms will build fglrx module, resulting crashed X)


Catalyst-generator is a package that is able to build and install the fglrx module packed into pacman compliant catalyst-${kernver} packages. The basic difference from Catalyst-hook is that you will have to trigger this command manually, whereas Catalyst-hook will do this automatically at boot when a new kernel got installed.

It creates catalyst-${kernver} packages using makepkg and installs them with pacman. ${kernver} is the kernel version for which each package was built (e.g. catalyst-2.6.35-ARCH package was built for 2.6.35-ARCH kernel).

To build and install catalyst-${kernver} package for a currently booted kernel as an unprivileged user (non-root; safer way), use catalyst_build_module. You will be asked for your root password to proceed to package installation.

A short summary on how to use this package:

  1. As root: catalyst_build_module remove. This will remove all unused catalyst-{kernver} packages.
  2. As unprivileged user: catalyst_build_module ${kernver}, where ${kernver} is the version of the kernel to which you just updated. For example: catalyst_build_module 2.6.36-ARCH. You can also build catalyst-${kernver} for all installed kernels by using catalyst_build_module all.
  3. If you want to remove catalyst-generator, it's best to run this as root before removing catalyst-generator: catalyst_build_module remove_all. This will remove all catalyst-{kernver} packages from the system.

Catalyst-generator isn't able to remove all those catalyst-{kernver} packages automatically while being removed because there can not be more than one instance of pacman running. If you forget to run catalyst_build_module remove_all before using pacman -R catalyst-generator catalyst-generator will tell you which catalyst-{kernver} packages you will have to remove manually after removing catalyst-generator itself.

Catalyst-generator is most safe and KISS-friendly solution because:

- you can use unprivileged user to build the package;

- it's building modules in fakeroot environment;

- it's not throwing files here and there, package manager always knows where they are;

... all you have to do is to remember to use it

Note: If you see those warnings:

WARNING: Package contains reference to $srcdir

WARNING: '.pkg' is not a valid archive extension.

while building catalyst-{kernver} package, do not be concerned, it's normal.

OpenCL and OpenGL development

Since years AMD is working on tools for OpenCL and OpenGL developement.

Now under the banner of "Heterogeneous Computing" AMD is providing even more of them, fortunately most of their computing tools are available also for Linux.

In the AUR and the [catalyst] repositories you will find packages that represent the most important work from AMD, namely; amdapp-aparapi, amdapp-sdk and amdapp-codexl.

APP shortcut stands for Accelerated Parallel Processing.


AMD's Aparapi is an API for expressing data parallel workloads in Java and a runtime component capable of converting the Java bytecode of compatible workloads into OpenCL so that it can be executed on a variety of GPU devices. If Aparapi can’t execute on the GPU, it will execute in a Java thread pool.

You can find more information about Aparapi here.

amdapp-sdk (formerly known as amdstream)

The AMD APP Software Development Kit (SDK) is a complete development platform created by AMD to allow you to quickly and easily develop applications accelerated by AMD APP technology. The SDK provides samples, documentation and other materials to quickly get you started leveraging accelerated compute using OpenCL, Bolt, or C++ AMP in your C/C++ application.

Since version 2.8 amdapp-sdk is providing aparapiUtil as well as aparapi's samples. A package is available on the [catalyst] repository; it depends on the amdapp-aparapi package. The AUR's package will let you decide whether you want aparapi's additions or not.

Version 2.8 does not provide Profiler functionality, it has been moved to CodeXL.

You can find more information about AMD APP SDK here.


CodeXL is an OpenCL and OpenGL Debugger and Profiler, with a static OpenCL kernel analyzer. It's a GUI application written atop of the well known gDEBugger and is available only for x86_64 systems.

You can find more informations about CodeXL here.


Tear Free Rendering

Presented in Catalyst 11.1, the Tear Free Desktop feature reduces tearing in 2D, 3D and video applications. This likely adds triple-buffering and v-sync. Do note that it requires additional GPU processing.

To enable 'Tear Free Desktop' run amdcccle and go to: Display OptionsTear Free.

Or as root run:

# aticonfig --set-pcs-u32=DDX,EnableTearFreeDesktop,1

To disable, again use amdcccle or run as root:

# aticonfig --del-pcs-key=DDX,EnableTearFreeDesktop

Video acceleration

Video Acceleration API (VA API) is an open source software library (libVA) and API specification which provides GPU acceleration for video processing on Linux/UNIX based operating systems. The process works by enabling hardware accelerated video decode at various entry-points (VLD, IDCT, Motion Compensation, deblocking) for common encoding standards (MPEG-2, MPEG-4 ASP/H.263, MPEG-4 AVC/H.264, and VC-1/WMV3).

VA-API gained a proprietary backend (in November 2009) called xvba-videoAUR, that allows VA-API programmed applications to take advantage of AMD Radeons UVD2 chipsets via the XvBA (X-Video Bitstream Acceleration API designed by AMD) library.

XvBA support and xvba-video is still under development, however it is working very well in most cases. Build the xvba-videoAUR package from AUR or soon, install it from [community] and install mplayer-vaapi and libva. Then just set your video player to use vaapi:gl as video output:

$ mplayer -vo vaapi:gl movie.avi

These options can be added to your mplayer configuration file, see MPlayer.

For smplayer:

Options → Preferences → General → Video (tab) → Output driver: User Defined : vaapi:gl
Options → Preferences → General → Video (tab) → Double buffering on
Options → Preferences → General → General → Screenshots → Turn screenshots off
Options → Preferences → Performance → Threads for decoding: 1 (to turn off -lavdopts parameter)
Note: If Tear Free Desktop is enabled it's better to use:
Options -> Preferences -> General -> Video (tab) -> Output driver: vaapi

If Video Output vaapi:gl isn't working - please check:

vaapi, vaapi:gl2 or simply xv(0 - AMD Radeon AVIVO Video).

For VLC:

Tools → Preferences → Input & Codecs → Use GPU accelerated decoding

It might help to enable v-sync in amdcccle:

3D → More Settings → Wait for vertical refresh = Always On
Note: If you are using Compiz/KWin, the only way to avoid video flickering is to watch videos in full-screen and only when Unredirect Fullscreen is off. In compiz you need to set Redirected Direct Rendering in General Options of ccsm. If it is still flickering, try to disable this option in CCSM. It's off by default in KWin, but if you see flickering try to turn "Suspend desktop effects for fullscreen windows" on or off in System Settings → Desktop Effects → Advanced.

GPU/Mem frequency, Temperature, Fan speed, Overclocking utilities

You can get the GPU/Mem clocks with: $ aticonfig --od-getclocks.

You can get the fan speed with: $ aticonfig --pplib-cmd "get fanspeed 0"

You can get the temperature with: $ aticonfig --odgt

To set the fanspeed with: $ aticonfig --pplib-cmd "set fanspeed 0 50" Query Index: 50, Speed in percent

To overclock and/or underclock it's easier to use a GUI, like ATi Overclocking Utility, which is very simple and requires qt to work. It might be out of date/old, but you can get it here.

Another, more complex utility to perform such operations is AMDOverdriveCtrl. Its homepage is here and you can build an Arch package from AUR or from Vi0L0's unofficial repositories.

Double Screen (Dual Head / Dual Screen / Xinerama)


Warning: you should know that there isn't one specific solution because each setup differs and needs its own configuration. That's why you will have to adapt the steps below to your own needs. It is possible that you have to try more than once. Therefore, you should save your working /etc/X11/xorg.conf before you start modifying and you must be able to recover from a command-line environment.
  • In this chapter, we will describe the installation of two different-sized screens on only one graphics card with two different output ports (DVI + HDMI) using a "BIG Desktop" configuration.
  • The Xinerama solution has some inconveniences, especially because it is not compatible with XrandR. For that very reason, you should not use this solution, because XrandR is a must for our later configuration.
  • The Dual Head solution would allow you to have 2 different sessions (one for each screen). It could be what you want, but you will not be able to move windows from one screen to another. If you have only one screen, you will have to define the mouse inside your Xorg session for each of the two sessions inside the Server Layout section.

ATI Documentation

ATI Catalyst Control Center

The GUI tool shipped by ATI is very useful and we will try to use it as much as we can. To launch it, open a terminal and use the following command:

$ {kdesu/gksu} amdcccle
Warning: Do not use sudo directly with a GUI. Sudo gives you admin rights with user account information. Instead, use gksu (GNOME) or kdesu (KDE).


Before we start, make sure that your hardware is plugged in correctly, that power is on and that you know your hardware characteristics (screen dimensions, sizes, refreshment rates, etc.) Normally, both screens are recognized during boot time but not necessarily identified properly, especially if you are not using any Xorg base configuration file (/etc/X11/xorg.conf) but relying on the hot-plugging feature.

The first step is to make sure that you screens will be recognized by your DE and by X. For this, you need to generate a basic Xorg configuration file for your two screens:

# aticonfig --initial --desktop-setup=horizontal --overlay-on=1


# aticonfig --initial=dual-head --screen-layout=left
Note: overlay is important because it allows you to have 1 pixel (or more) shared between the 2 screens.
Tip: For the other possible and available options, do not hesitate to type aticonfig --help inside a terminal to display all available command lines.

Now you should have a basic Xorg configuration file that you can edit to add your screen resolutions. It is important to use the precise resolution, especially if you have screens of different sizes. These resolutions have to be added in the "Screen" section:

SubSection "Display"
Depth 24
Modes "X-resolution screen 1xY-resolution screen 1" "Xresolution screen 2xY-resolution screen 2"

From now on, instead of editing the xorg.conf file manually, let us use the ATI GUI tool. Restart X to be sure that your two screens are properly supported and that the resolutions are properly recognized (Screens must be independent, not mirrored).


Now you will only have to launch the ATI control center with root privileges, go to the display menu and choose how you would like to set your configuration (small arrow of the drop down menu). A last restart of X and you should be done!

Before you restart X, do not hesitate to verify your new xorg.conf file. At this stage, inside the "Display" sub-section of the "Screen" section, you should see a "Virtual" command line, of which the resolution should be the sum of both screens. The "Server Layout" section says all the rest.


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

Reason: This section still references rc.conf, which has been deprecated. (Discuss in Talk:AMD Catalyst#)

If for any reason this driver is not working for you or you want to try out the open source driver, remove catalyst and catalyst-utils packages. Also you should remove catalyst-daemonAUR, catalyst-generatorAUR, catalyst-hookAUR and lib32-catalyst-utilsAUR packages if they have been installed on your system.

Warning: You may need to use pacman -Rdd to remove catalyst-utilsAUR (and/or lib32-catalyst-utilsAUR) because that package contains gl related files and many of your installed packages depend on them. You also have to remove /etc/profile.d/ati-flgrx.sh (if it exists on your system), otherwise r600_dri.so will fail to load and you would not have 3D support.
Note: You should remove unofficial repositories from your /etc/pacman.conf and run pacman -Syu, because those repositories include out-dated Xorg packages to allow use of catalyst and the xf86-video-ati package needs up-to-date Xorg packages from the Official repositories.

Also follow these steps:

  • If you have the /etc/modprobe.d/blacklist-radeon.conf file remove it or comment the line blacklist radeon in that file.
  • If you have a file in /etc/modules-load.d to load the fglrx module on boot, remove it or comment the line containing fglrx.
  • Make sure to remove or backup /etc/X11/xorg.conf.
  • If you have installed the catalyst-hookAUR package, make sure to remove fglrx from the "HOOKS" array of /etc/mkinitcpio.conf in case if post-removal script of the package don't work.
  • If you have installed the catalyst-generatorAUR package, make sure to remove "fglrx" from the "MODULES" array of /etc/rc.conf in case if post-removal script of the package don't work.
  • If you have installed the catalyst-daemonAUR package, make sure to remove "autofglrx" from the "DAEMONS" array of /etc/rc.conf in case if post-removal script of the package don't work.
  • If you used the "nomodeset" option in your configuration file in kernel parameters line and plan to use KMS, remove it.
  • Reboot before installing another driver.


If you can still boot to command-line, then the problem probably lies in /etc/X11/xorg.conf

You can parse the whole /var/log/Xorg.0.log or, for clues:

$ grep '(EE)' /var/log/Xorg.0.log
$ grep '(WW)' /var/log/Xorg.0.log

If you are still confused about what is going on, search the forums first. Then post a message in the thread specific to ATI/AMD. Provide the information from xorg.conf and both commands mentioned above.

3D Wine applications freeze

If you use a 3D Wine application and it hangs, you have to disable TLS. To do this, either use aticonfig or edit /etc/X11/xorg.conf. To use aticonfig:

# aticonfig --tls=off

Or, to edit /etc/X11/xorg.conf; first open the file in an editor as root and then add Option "UseFastTLS" "off" to the Device section of this file.

After applying either of the solutions, restart X for it to take effect.

Problems with video colours

You may still use vaapi:gl to avoid video flickering, but without video acceleration:

  • Run mplayer without -vo vaapi switch.
  • Run smplayer remove -vo vaapi from Options → Preferences → Advanced → Options for MPlayer → Options: -vo vaapi

Plus for smplayer you may now safely turn screenshots on.

KWin and composite

You may use XRender if the rendering with OpenGL is slow. However, XRender might also be slower than OpenGL depending on your card. XRender also solves artefact issues in some cases, for instance when resizing Konsole.

Black screen with complete lockups and/or hangs after reboot or startx

Ensure you have added the nomodeset option to the kernel options line in your bootloader (see #Disable kernel mode setting).

If you are using the legacy driver (catalyst-hd234k) and get a black screen, try downgrading xorg-server to 1.11 by using the #xorg111 repository.

Faulty ACPI hardware calls

It is possible that fglrx doesn't cooperate well with the system's ACPI hardware calls, so it auto-disables itself and there is no screen output.

If so, try to run this:

$ aticonfig --acpi-services=off

KDM disappears after logout

If you are running Catalyst proprietary driver and you get a console (tty1) instead of the expected KDM greeting when you log out, you must instruct KDM to restart the X server after each logout:

$ sudo nano /usr/share/config/kdm/kdmrc

Uncomment the following line under the section titled [X-:*-Core]:


KDM should now appear when you log out of KDE.

Direct Rendering does not work

This problem may occur when using the proprietary Catalyst driver.

Warning: This error would also appear if you have not rebooted your system after the installation or upgrade of catalyst. The system needs to load the fglrx.ko module in order to make the driver work.

If you have problem with direct rendering, run:

$ LIBGL_DEBUG=verbose glxinfo > /dev/null

at the command prompt. At the very start of the output, it'll usually give you a nice error message saying why you do not have direct rendering.

Common errors and their solutions, are:

libGL error: XF86DRIQueryDirectRenderingCapable returned false
  • Ensure that you are loading the correct agp modules for your AGP chipset before you load the fglrx kernel module. To determine which agp modules you'll need, run hwdetect --show-agp. Then open your fglrx.conf file in /etc/modules-load.d and add the agp module on a line before the fglrx line.
libGL error: failed to open DRM: Operation not permitted
libGL error: reverting to (slow) indirect rendering
libGL: OpenDriver: trying /usr/lib/xorg/modules/dri//fglrx_dri.so
libGL error: dlopen /usr/lib/xorg/modules/dri//fglrx_dri.so failed
(/usr/lib/xorg/modules/dri//fglrx_dri.so: cannot open shared object file: No such file or directory)
libGL error: unable to find driver: fglrx_dri.so
  • Something has not been installed correctly. If the paths in the error message are /usr/X11R6/lib/modules/dri/fglrx_dri.so, then ensure you've logged completely out of your system, then back in. If you're using a graphical login manager (gdm, kdm, xdm), ensure that /etc/profile is sourced every time you log in. This is usually accomplished by adding source /etc/profile into ~/.xsession or ~/.xinitrc, but this may vary between login managers.
  • If the paths above in your error message are /usr/lib/xorg/modules/dri/fglrx_dri.so, then something has not been correctly installed. Try reinstalling the catalyst package.

Errors such as:

fglrx: libGL version undetermined - OpenGL module is using glapi fallback

could be caused by having multiple versions of libGL.so on your system. Run:

$ sudo updatedb
$ locate libGL.so

This should return the following output:

$ locate libGL.so

These are the only three libGL.so files you should have on your system. If you have any more (e.g. /usr/X11R6/lib/libGL.so.1.2), then remove them. This should fix your problem.

You might not get any error to indicate that this is a problem. If you are using X11R7, make sure you do not have these files on your system:


Hibernate/Sleep Issues

Video fails to resume from suspend2ram

ATI's proprietary Catalyst driver cannot resume from suspend if the framebuffer is enabled. To disable the framebuffer, add vga=0 to your kernel options in for example, Grub Legacy's /boot/grub/menu.lst:

kernel /vmlinuz-linux root=/dev/sda3 resume=/dev/sda2 ro quiet vga=0

To see where you need to add this with other bootloaders, see #Disable kernel mode setting.

System Freezes/Hard locks

  • The radeonfb framebuffer drivers have been known in the past to cause problems of this nature. If your kernel has radeonfb support compiled in, you may want to try a different kernel and see if this helps.
  • If you experience system freezes when exiting your DE (shut down, suspend, switching to tty etc.) you probably forgot to deactivate KMS. (See #Disable kernel mode setting)

Hardware Conflicts

Radeon cards used in conjunction with some versions of the nForce3 chipset (e.g. nForce 3 250Gb) won't have 3D acceleration. Currently the cause of this issue is unknown, but some sources indicate that it may be possible to get acceleration with this combination of hardware by booting Windows with the drivers from nVIDIA and then rebooting the system. This can be verified by issuing in a root console the following command:

$ dmesg | grep agp

If you get something similar to this (using an nForce3-based system):

    agpgart: Detected AGP bridge 0
    agpgart: Setting up Nforce3 AGP.
    agpgart: aperture base > 4G

and also if issuing this command...

$ tail -n 100 /var/log/Xorg.0.log | grep agp

...gets something similar to:

(EE) fglrx(0): [agp] unable to acquire AGP, error "xf86_ENODEV"

Then you have this bug.

Some sources indicate that in some situations, downgrading the motherboard BIOS may help, but this cannot be verified in all cases. Also, a bad BIOS downgrade can render your hardware useless, so beware.

See this bugreport for more information and a potential fix.

Temporary hangs when playing video

This problem may occur when using the proprietary Catalyst.

If you experience temporary hangs lasting from a few seconds to several minutes occuring randomly during playback with mplayer, check /var/log/messages.log for output like:

Nov 28 18:31:56 pandemonium [<c01c64a6>] ? proc_get_sb+0xc6/0x160
Nov 28 18:31:56 pandemonium [<c01c64a6>] ? proc_get_sb+0xc6/0x160
Nov 28 18:31:56 pandemonium [<f8bc628c>] ? ip_firegl_ioctl+0x1c/0x30 [fglrx]
Nov 28 18:31:56 pandemonium [<c01c64a6>] ? proc_get_sb+0xc6/0x160
Nov 28 18:31:56 pandemonium [<c0197038>] ? vfs_ioctl+0x78/0x90
Nov 28 18:31:56 pandemonium [<c01970b7>] ? do_vfs_ioctl+0x67/0x2f0
Nov 28 18:31:56 pandemonium [<c01973a6>] ? sys_ioctl+0x66/0x70
Nov 28 18:31:56 pandemonium [<c0103ef3>] ? sysenter_do_call+0x12/0x33
Nov 28 18:31:56 pandemonium [<c01c64a6>] ? proc_get_sb+0xc6/0x160
Nov 28 18:31:56 pandemonium =======================

Adding the nopat kernel option to your kernel options in your bootloader and rebooting fixed the problem at least for me. To see how to do this for different bootloaders, see #Disable kernel mode setting.

"aticonfig: No supported adapters detected"

If when running

# aticonfig --initial

you get:

aticonfig: No supported adaptaters detected

But you do have an AMD GPU (or APU), it may still be possible to get Catalyst working by manually setting the device in your your etc/X11/xorg.conf file or by copying an older working /etc/ati/control file (preferred - this also fixes the watermark issue).

To get an older control file, download a previous version of fglrx from AMD and run it with "--extract driver" parameter. You'll find the control file in driver/common/etc/ati/control. Copy the extracted file over the system file and restart Xorg. You can try different versions of the file.

To set your model in xorg.conf,edit the device section of /etc/X11/xorg.conf to:

Section "Device"
 Identifier "ATI radeon ****"
 Driver "fglrx"

Where **** should be replaced with your device's marketing number (e.g. 6870 for the HD 6870 and 6310 for the E-350 APU).

Xorg will start and it is possible to use amdcccle instead of aticonfig. There will be an "AMD Unsupported hardware" watermark.

You can remove this watermark using the following script:

for x in $(objdump -d $DRIVER|awk '/call/&&/EnableLogo/{print "\\x"$2"\\x"$3"\\x"$4"\\x"$5"\\x"$6}'); do
 sed -i "s/$x/\x90\x90\x90\x90\x90/g" $DRIVER

and rebooting.

WebGL support in Chromium

Google has blacklisted Linux's Catalyst driver from supporting webGL in their Chromium/Chrome browsers.

You can turn webGL on by editing /usr/share/applications/chromium.desktop file and adding --ignore-gpu-blacklist flag into the Exec line so it looks like this:

Exec=chromium %U --ignore-gpu-blacklist

You can also run chromium from console with the same --ignore-gpu-blacklist flag:

$ chromium --ignore-gpu-blacklist
Warning: Catalyst does not support the GL_ARB_robustness extension, so it is possible that a malicious site could use WebGL to perform a DoS attack on your graphic card. For more info, read this.

Laggs/freezes when watching flash videos via Adobe's flashplugin

Edit /etc/adobe/mms.cfg and make it look like this:


If you are using KDE make sure that "Suspend desktop effects for fullscreen windows" is unchecked under System Settings->Workspace Appearance and Behaviour->Desktop Effects->Advanced.

Laggs/slow windows movement in GNOME3

You can try this solution out, it's working for many people.

Add this line into ~/.profile or into /etc/profile:

export CLUTTER_VBLANK=none

Restart X server or reboot your system.

Not using fullscreen resolution at 1920x1080 (underscanning)

Using the amdcccle GUI you can select the display, go to adjustments, and set Underscan to 0% (aticonfig defaults to 15% underscan).

Alternatively, you can use aticonfig to disable underscanning as well:

aticonfig --set-pcs-val=MCIL,DigitalHDTVDefaultUnderscan,0

For newer version (for example, 12.11), if Catalyst control center repeatedly fails to save the overscan setting, edit /etc/ati/amdpcsdb:


Then logout and login.

Dual Screen Setup: general problems with acceleration, OpenGL, compositing, performance

Try to disable xinerama and xrandr12. Check out ie. this way:

As root type those commands:

aticonfig --initial
aticonfig --set-pcs-str="DDX,EnableRandR12,FALSE"

Then reboot your system. In /etc/X11/xorg.conf check that xinerama is disabled, if it's not disable it and reboot your system.

Next run amdcccle and pick up amdcccle->display manager->multi-display->multidisplay desktop with display(s) 2.

Reboot again and set up your display layout whatever you desire.

Disabling VariBright Feature

As root type command:

aticonfig --set-pcs-u32=MCIL,PP_UserVariBrightEnable,0

Hybrid/PowerXpress: turning off discrete GPU

When you are using catalyst-total-pxp or catalyst-utils-pxp and you are switching to integrated GPU you may notice that discrete GPU is still working, consuming power and making your system's temperature higher.

Sometimes ie. when your integrated GPU is intel's one you can use vgaswitcheroo to turn the discrete GPU off. Sometimes unfortunatelly, it's not working.

Then you may check out acpi_call. MrDeepPurple has prepared the script which he's using to perform 'turn off' task, he's calling script via systemd service while booting and resuming his system. Here's his script:

libglx=$(/usr/lib/fglrx/switchlibglx query)
modprobe acpi_call
if [ "$libglx" = "intel" ]; then
echo '\_SB.PCI0.PEG0.PEGP._OFF' > /proc/acpi/call