Since Intel provides and supports open source drivers, Intel graphics are essentially plug-and-play.
For a comprehensive list of Intel GPU models and corresponding chipsets and CPUs, see Wikipedia:List of Intel graphics processing units.
- 1 Installation
- 2 Loading
- 3 Xorg configuration
- 4 Module-based options
- 5 Tips and tricks
- 6 Troubleshooting
- 6.1 Tearing
- 6.2 Disable Vertical Synchronization (VSYNC)
- 6.3 SNA issues
- 6.4 DRI3 issues
- 6.5 Font and screen corruption in GTK applications (missing glyphs after suspend/resume)
- 6.6 Blank screen during boot, when "Loading modules"
- 6.7 X freeze/crash with intel driver
- 6.8 Baytrail complete freeze
- 6.9 Adding undetected resolutions
- 6.10 Backlight is not adjustable
- 6.11 Corruption/Unresponsiveness in Chromium and Firefox
- 6.12 Kernel crashing w/kernels 4.0+ on Broadwell/Core-M chips
- 6.13 Lag in Windows guests
- 6.14 Screen flickering
- 6.15 OpenGL 2.1 with i915 driver
- 6.16 KMS Issue: console is limited to small area
- 6.17 Weathered colors (color range problems)
- 7 See also
- For 32-bit application support, also install the multilib repository. package from the
- For the DDX driver (which provides 2D acceleration in Xorg), install the package. (Often not recommended, see note below.)
- For Vulkan support (Ivy Bridge and newer), install the package.
Also see Hardware video acceleration.
The Intel kernel module should load fine automatically on system boot.
If it does not happen, then:
- Make sure you do not have
vga=as a kernel parameter, since Intel requires kernel mode-setting.
- Also, check that you have not disabled Intel by using any modprobe blacklisting within
Enable early KMS
Kernel mode setting (KMS) is supported by Intel chipsets that use the i915 DRM driver and is mandatory and enabled by default.
Refer to Kernel mode setting#Early KMS start for instructions on how to enable KMS as soon as possible at the boot process.
Enable GuC / HuC firmware loading
For Skylake and newer processors, some video features (e.g. CBR rate control on SKL low-power encoding mode) may require the use of an updated GPU firmware, which is currently (as of 4.16) not enabled by default. Enabling GuC/HuC firmware loading can cause issues on some systems; disable it if you experience freezing (for example, after resuming from hibernation).
For those processors it is necessary to add
i915.enable_guc=2 to the kernel parameters to enable both GuC and HuC firmware loading. Alternatively, if the initramfs already includes the
i915 module (see Kernel mode setting#Early KMS start), you can set these options through a file in
options i915 enable_guc=2
enable_guc=3module parameter, although this is generally discouraged and may even negatively affect your system stability.
You can verify both are enabled by using dmesg:
[drm] HuC: Loaded firmware i915/kbl_huc_ver02_00_1810.bin (version 2.0) [drm] GuC: Loaded firmware i915/kbl_guc_ver9_39.bin (version 9.39) i915 0000:00:02.0: GuC firmware version 9.39 i915 0000:00:02.0: GuC submission enabled i915 0000:00:02.0: HuC enabled
Alternatively, check using:
# cat /sys/kernel/debug/dri/0/i915_huc_load_status # cat /sys/kernel/debug/dri/0/i915_guc_load_status
enable_gvt=1is not supported as of linux 4.20.11 when GuC/HuC is also enabled. The i915 module would fail to initialize as shown in system journal.
... kernel: [drm:intel_gvt_init [i915]] *ERROR* i915 GVT-g loading failed due to Graphics virtualization is not yet supported with GuC submission ... kernel: i915 0000:00:02.0: [drm:i915_driver_load [i915]] Device initialization failed (-5) ... kernel: i915: probe of 0000:00:02.0 failed with error -5 ... kernel: snd_hda_intel 0000:00:1f.3: failed to add i915 component master (-19)
There may be no need for any configuration to run Xorg.
However, if Xorg does not start, and to take advantage of some driver options, you can create an Xorg configuration file similar to the one below:
Section "Device" Identifier "Intel Graphics" Driver "intel" EndSection
Additional options are added by the user on new lines below
For the full list of options, see the man page.
- You may need to indicate
Option "AccelMethod"when creating a configuration file, even just to set it to the default method (currently
"sna"); otherwise, X may crash.
- You might need to add more device sections than the one listed above. This will be indicated where necessary.
i915 kernel module allows for configuration via module options. Some of the module options impact power saving.
A list of all options along with short descriptions and default values can be generated with the following command:
$ modinfo -p i915
To check which options are currently enabled, run
# systool -m i915 -av
You will note that many options default to -1, resulting in per-chip powersaving defaults. It is however possible to configure more aggressive powersaving by using module options.
Framebuffer compression (enable_fbc)
Making use of Framebuffer compression (FBC) can reduce power consumption while reducing memory bandwidth needed for screen refreshes.
To enable FBC, use
i915.enable_fbc=1 as kernel parameter or set in
options i915 enable_fbc=1
kernel: drm: not enough stolen space for compressed buffer, disabling.
Enabling frame buffer compression on pre-Sandy Bridge CPUs results in endless error messages:
[ 2360.475430] [drm] not enough stolen space for compressed buffer (need 4325376 bytes), disabling [ 2360.475437] [drm] hint: you may be able to increase stolen memory size in the BIOS to avoid thisThe solution is to disable frame buffer compression which will imperceptibly increase power consumption (around 0.06 W). In order to disable it add
i915.enable_fbc=0to the kernel line parameters. More information on the results of disabled compression can be found here.
To enable fastboot, set
i915.fastboot=1 as kernel parameter or set in
options i915 fastboot=1
Intel GVT-g graphics virtualization support
See Intel GVT-g for details.
Tips and tricks
Setting scaling mode
This can be useful for some full screen applications:
$ xrandr --output LVDS1 --set PANEL_FITTING param
param can be:
center: resolution will be kept exactly as defined, no scaling will be made,
full: scale the resolution so it uses the entire screen or
full_aspect: scale the resolution to the maximum possible but keep the aspect ratio.
If it does not work, try:
$ xrandr --output LVDS1 --set "scaling mode" param
param is one of
Hardware accelerated H.264 decoding on GMA 4500
The . This is echoed by other experiences . Setting the preallocated video ram size higher in bios results in much better hardware decoded playback. Even 1080p h264 works well if this is done. Smooth playback (1080p/720p) works also with AUR in combination with AUR and AUR. With MPV and the Firefox plugin "Watch with MPV" it is possible to watch hardware accelerated YouTube videos.package only provides hardware accelerated MPEG-2 decoding for GMA 4500 series GPUs. The H.264 decoding support is maintained in a separated g45-h264 branch, which can be used by installing AUR package. Note however that this support is experimental and its development has been abandoned. Using the VA-API with this driver on a GMA 4500 series GPU will offload the CPU but may not result in as smooth a playback as non-accelerated playback. Tests using mplayer showed that using vaapi to play back an H.264 encoded 1080p video halved the CPU load (compared to the XV overlay) but resulted in very choppy playback, while 720p worked reasonably well
Alternative OpenGL Driver (Iris)
As of Mesa 19.2, a new OpenGL driver, Iris, is available for testing. Certain applications run faster with it. You may experimentally enable it by setting the
MESA_LOADER_DRIVER_OVERRIDE=iris environment variable before starting any OpenGL application. This setting does not affect Vulkan applications.
Overriding reported OpenGL version
MESA_GL_VERSION_OVERRIDE environment variable can be used to override the reported OpenGL version to any application. For example, setting
MESA_GL_VERSION_OVERRIDE=4.5 will report OpenGL 4.5.
Setting brightness and gamma
The SNA acceleration method causes tearing on some machines. To fix this, enable the
"TearFree" option in the driver by adding the following line to your configuration file:
Section "Device" Identifier "Intel Graphics" Driver "intel" Option "TearFree" "true" EndSection
See the original bug report for more info.
- This option may not work when
- This option may increase memory allocation considerably and reduce performance. 
- This option is problematic for applications that are very picky about vsync timing, like Super Meat Boy.
- This option does not work with UXA acceleration method, only with SNA.
Disable Vertical Synchronization (VSYNC)
- Chomium/Chrome has lags and slow performance due to GPU and runs smoothly with --disable-gpu switch
- glxgears test does not show desired performance
The intel-driver uses Triple Buffering for vertical synchronization, this allows for full performance and avoids tearing. To turn vertical synchronization off (e.g. for benchmarking) use this
.drirc in your home directory:
<device screen="0" driver="dri2"> <application name="Default"> <option name="vblank_mode" value="0"/> </application> </device>
SNA is the default acceleration method in configuration file:. If you experience issues with SNA (e.g. pixelated graphics, corrupt text, etc.), try using UXA instead, which can be done by adding the following line to your
Option "AccelMethod" "uxa"
Option "DRI" "2"
modesetting driver, this method of disabling DRI3 does not work. Instead, one can set the environment variable
Font and screen corruption in GTK applications (missing glyphs after suspend/resume)
Should you experience missing font glyphs in GTK applications, the following workaround might help. Edit
/etc/environment to add the following line:
See also FreeDesktop bug 88584.
Blank screen during boot, when "Loading modules"
If using "late start" KMS and the screen goes blank when "Loading modules", it may help to add
intel_agp to the initramfs. See Kernel mode setting#Early KMS start section.
Alternatively, appending the following kernel parameter seems to work as well:
If you need to output to VGA then try this:
X freeze/crash with intel driver
Some issues with X crashing, GPU hanging, or problems with X freezing, can be fixed by disabling the GPU usage with the
NoAccel option - add the following lines to your configuration file:
Option "NoAccel" "True"
Alternatively, try to disable the 3D acceleration only with the
Option "DRI" "False"
Baytrail complete freeze
If you are using kernel > 3.16 on Baytrail architecture and randomly encounter total system freezes, the following kernel option is a workaround until this bug is fixed in the linux kernel.
This is originally an Intel CPU bug that can be triggered by certain c-state transitions. It can also happen with Linux kernel 3.16 or Windows, though apparently much more rarely. The kernel option will prevent the freeze by avoiding c-state transitions but will also increase power consumption.
Adding undetected resolutions
This issue is covered on the Xrandr page.
Backlight is not adjustable
If after resuming from suspend, the hotkeys for changing the screen brightness do not take effect, check your configuration against the Backlight article.
If the problem persists, try one of the following kernel parameters:
acpi_osi=Linux acpi_osi="!Windows 2012" acpi_osi=
Also make sure you are not using fastboot mode (i915.fastboot kernel parameter), it is known for breaking backlight controls.
Corruption/Unresponsiveness in Chromium and Firefox
If you experience corruption, unresponsiveness, lags or slow performance in Chromium and/or Firefox some possible solutions are:
- Enable "DRI2", "uxa" and "TearFree":
Section "Device" Identifier "Intel Graphics" Driver "intel" Option "DRI" "2" Option "TearFree" "true" Option "AccelMethod" "uxa" EndSection
- Disable "DRI" and acceleration method (tested on Intel Iris 10th generation):
Section "Device" Identifier "Intel Graphics" Driver "intel" Option "NoAccel" "True" Option "DRI" "False" EndSection
Kernel crashing w/kernels 4.0+ on Broadwell/Core-M chips
A few seconds after X/Wayland loads the machine will freeze and journalctl will log a kernel crash referencing the Intel graphics as below:
Jun 16 17:54:03 hostname kernel: BUG: unable to handle kernel NULL pointer dereference at (null) Jun 16 17:54:03 hostname kernel: IP: [< (null)>] (null) ... Jun 16 17:54:03 hostname kernel: CPU: 0 PID: 733 Comm: gnome-shell Tainted: G U O 4.0.5-1-ARCH #1 ... Jun 16 17:54:03 hostname kernel: Call Trace: Jun 16 17:54:03 hostname kernel: [<ffffffffa055cc27>] ? i915_gem_object_sync+0xe7/0x190 [i915] Jun 16 17:54:03 hostname kernel: [<ffffffffa0579634>] intel_execlists_submission+0x294/0x4c0 [i915] Jun 16 17:54:03 hostname kernel: [<ffffffffa05539fc>] i915_gem_do_execbuffer.isra.12+0xabc/0x1230 [i915] Jun 16 17:54:03 hostname kernel: [<ffffffffa055d349>] ? i915_gem_object_set_to_cpu_domain+0xa9/0x1f0 [i915] Jun 16 17:54:03 hostname kernel: [<ffffffff811ba2ae>] ? __kmalloc+0x2e/0x2a0 Jun 16 17:54:03 hostname kernel: [<ffffffffa0555471>] i915_gem_execbuffer2+0x141/0x2b0 [i915] Jun 16 17:54:03 hostname kernel: [<ffffffffa042fcab>] drm_ioctl+0x1db/0x640 [drm] Jun 16 17:54:03 hostname kernel: [<ffffffffa0555330>] ? i915_gem_execbuffer+0x450/0x450 [i915] Jun 16 17:54:03 hostname kernel: [<ffffffff8122339b>] ? eventfd_ctx_read+0x16b/0x200 Jun 16 17:54:03 hostname kernel: [<ffffffff811ebc36>] do_vfs_ioctl+0x2c6/0x4d0 Jun 16 17:54:03 hostname kernel: [<ffffffff811f6452>] ? __fget+0x72/0xb0 Jun 16 17:54:03 hostname kernel: [<ffffffff811ebec1>] SyS_ioctl+0x81/0xa0 Jun 16 17:54:03 hostname kernel: [<ffffffff8157a589>] system_call_fastpath+0x12/0x17 Jun 16 17:54:03 hostname kernel: Code: Bad RIP value. Jun 16 17:54:03 hostname kernel: RIP [< (null)>] (null)
This can be fixed by disabling execlist support which was changed to default on with kernel 4.0. Add the following kernel parameter:
This is known to be broken to at least kernel 4.0.5.
Lag in Windows guests
The video output of a Windows guest in VirtualBox sometimes hangs until the host forces a screen update (e.g. by moving the mouse cursor). Removing the
enable_fbc=1 option fixes this issue.
Panel Self Refresh (PSR), a power saving feature used by Intel iGPUs is known to cause flickering in some instances FS#49628 FS#49371 FS#50605. A temporary solution is to disable this feature using the kernel parameter
OpenGL 2.1 with i915 driver
<driconf> ... <device driver="i915"> <application name="Default"> <option name="stub_occlusion_query" value="true" /> <option name="fragment_shader" value="true" /> </application> </device> ... </driconf>
KMS Issue: console is limited to small area
One of the low-resolution video ports may be enabled on boot which is causing the terminal to utilize a small area of the screen. To fix, explicitly disable the port with an i915 module setting with
video=SVIDEO-1:d in the kernel command line parameter in the bootloader. See Kernel parameters for more info.
If that does not work, try disabling TV1 or VGA1 instead of SVIDEO-1. Video port names can be listed with xrandr.
Weathered colors (color range problems)
The "Broadcast RGB" property in the Intel driver defines the color range which can be used by the display - either "Limited 16:235" (which limits the color range for some displays that can't properly display all colors) and "Full". Since kernel 3.9, the new default property "Automatic" tries to determine whenever the display supports the full color range, and if it doesn't/detection fails, color range falls back to "Limited 16:235". This results in weathered colors and grey blacks. On some displays/connectors, despite the full color range being supported properly, automatic detection fails and falls back to the limited color range (upstream bug report, kernels 4.18-4.20).
You can forcefully set the desired color range by running
xrandr --output <OUT> --set "Broadcast RGB" "Full" (replace
<OUT> with the appropriate output device, listed by running
xrandr). There is no way to persist this setting in
- https://01.org/linuxgraphics/documentation (includes a list of supported hardware)