Hybrid-graphics is a concept involving two graphics cards on same computer, it was first designed to control power consumption in laptops and is extending to desktop computers as well
About Hybrid-graphics Technologies
The laptop manufacturers developed new technologies involving two graphic cards in an single computer, enabling both high performance and power saving usages. This technology is well supported on Windows but it's still quite experimental with Linux distributions.
We call hybrid graphics a set of two graphic cards with different abilities and power consumptions. There are a variety of technologies and each manufacturer developed its own solution to this problem. Here we try to explain a little about each approach and models and some community solutions to the lack of GNU/Linux systems support.
The "Old" Hybrid Model (Basic Switching)
This approach involves a two graphic card setup with a hardware multiplexer (MUX). It allows power save and low-end 3D rendering by using an Integrated Graphics Processor (IGP); or a major power consumption with 3D rendering performance using a Dedicated Graphics Processor (DGP). This model makes the user choose (at boot time or at login time) within the two power/graphics profiles and is almost fixed through all the user session. The switch is done by a similar workflow:
- Turn off the display
- Turn on the DGP
- Switch the multiplexer
- Turn off the IGP
- Turn on again the display
This switch is somewhat rough and adds some blinks and black screens in laptops that could do it "on the fly". Later approaches made the transition a little more user-friendly.
The New Dynamic Switching Model
Most of the new Hybrid-graphics technologies involves two graphic cards as the basic switching but now the DGP and IGP are plugged to a framebuffer and there is no hardware multiplexer. The IGP is always on and the DGP is switched on/off when there is a need in power-save or performance-rendering. In most cases there is no way to use only the DGP and all the switching and rendering is controlled by software. At startup, the Linux kernel starts using a video mode and setting up low-level graphic drivers which will be used by the applications. Most of the Linux distributions then use X.org to create a graphical environment. Finally, a few other softwares are launched, first a login manager and then a window manager, and so on. This hierarchical system has been designed to be used in most of cases on a single graphic card.
- Switching between cards when possible.
- Switching on/off the discrete card.
- Be able to use the discrete card for 3D render.
- Be able to use both cards for 3D render (problem arised in this post).
Software Solutions So Far
- asus_switcheroo -- a solution for Intel/Nvidia switching on ASUS and other laptops with a similar hardware mux -- by Alex Williamson
- byo_switcheroo -- a solution to build your own handler (like acpi_call) to switch between cards with vga_switcheroo -- by Alex Williamson
- vga_switcheroo -- the original GPU switching solution primarily for Intel/ATI notebooks -- by David Airlie
- acpi_call -- allows you to switch off discrete graphics card to improve battery life -- by Michal Kottman
- PRIME -- long-term Optimus solution in progress -- by David Airlie
- Bumblebee -- allows you to run specific programs on the discrete graphic card, inside of an X session using the integrated graphic card. Works on Nvidia Optimus cards -- by Martin Juhl
- hybrid-windump -- dump window using Nvidia onto Intel display -- by Florian Berger and Joakim Gebart
ATI Dynamic Switchable Graphics
This is a new technology similar to the one of Nvidia. There is no hardware multiplexer and gone into the market a few weeks/months ago.
The Dynamic Switch needs Xorg support for the discrete videocard assigned to rendering .
This means that with a muxless intel+ati design, you can't use your discrete card simply modprobing the module as listed down here.
As of now, there are 3 choices:
- Disable the discrete card and use only the intel one. In this case you can folow the instructions below to disable the radeon card.
- Use the proprietary driver with powerxpress (a.k.a. pxp) support maintained by Vi0l0 (remember to check for xorg compatibility).
Solutions So Far
Right now, the best solution is vga_switcheroo with combination of opensource drivers for your ATi and Intel graphics.
- Manual method
Make sure you have installed drivers. Run in terminal:
$ pacman -Q | grep -E "xf86-video-ati|xf86-video-intel"
In case you get output similar to this:
xf86-video-ati 6.14.1-1 xf86-video-intel 2.15.0-2
you're good to go. In other case install drivers:
# pacman -S xf86-video-ati xf86-video-intel
DO NOT reboot your computer! In most cases system will not boot with both drivers installed. Blacklist radeon module:
# echo > /etc/modprobe.d/radeon.conf blacklist\ radeon
This will prevent system from hanging during boot. vga_switcheroo works only with radeon module loaded. To load radeon automatically on system startup open
/etc/rc.local and add line:
optionally, you can turn off radeon right after system boot to save some battery energy and cool down your laptop. To do this, add following line to
# echo OFF > /sys/kernel/debug/vgaswitcheroo/switch
In order to be able to access vgaswitcheroo add this line to your fstab:
none /sys/kernel/debug debugfs defaults 0 0
KMSmust be activated for both cards, otherwise there will be no vgaswitcheroo in /sys/kernel/debug/
- AUR method
Get it from: hybrid-video-ati-intel AUR package