Hybrid graphics
Hybrid-graphics is a concept involving two graphics cards on same computer. Laptop manufacturers have developed technologies involving two graphic cards with different abilities and power consumption on a single computer. Hybrid-graphics has been developed to support both high performance and power saving use cases by keeping the Dedicated/Discrete Graphics Processor inactive unless its 3D rendering performance is needed over the Integrated Graphics Processor.
There are a variety of technologies and each manufacturer developed its own solution to this problem. This technology is well supported on Windows but it is still rough around the edges with Linux distributions. This article will try to explain a little about each approach and describe some community solutions to the lack of GNU/Linux systems support by vendors.
Dynamic switching
Most of the new Hybrid-graphics technologies involve two graphic cards : the dedicated and integrated cards are plugged to a framebuffer and there is no hardware multiplexer. The integrated card is always on and the dedicated card 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 dedicated card 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.
Fully power down discrete GPU
You may want to turn off the high-performance graphics processor to save battery power.
Using BIOS/UEFI
Some laptop manufacturers provide a toggle in the BIOS or UEFI to fully deactivate the dedicated card.
Using udev rules
Ensure any display manager config for NVIDIA is removed.
Blacklist the nouveau drivers by creating
/etc/modprobe.d/blacklist-nouveau.conf
blacklist nouveau options nouveau modeset=0
Then create
/etc/udev/rules.d/00-remove-nvidia.rules
# Remove NVIDIA USB xHCI Host Controller devices, if present ACTION=="add", SUBSYSTEM=="pci", ATTR{vendor}=="0x10de", ATTR{class}=="0x0c0330", ATTR{power/control}="auto", ATTR{remove}="1" # Remove NVIDIA USB Type-C UCSI devices, if present ACTION=="add", SUBSYSTEM=="pci", ATTR{vendor}=="0x10de", ATTR{class}=="0x0c8000", ATTR{power/control}="auto", ATTR{remove}="1" # Remove NVIDIA Audio devices, if present ACTION=="add", SUBSYSTEM=="pci", ATTR{vendor}=="0x10de", ATTR{class}=="0x040300", ATTR{power/control}="auto", ATTR{remove}="1" # Remove NVIDIA VGA/3D controller devices ACTION=="add", SUBSYSTEM=="pci", ATTR{vendor}=="0x10de", ATTR{class}=="0x03[0-9]*", ATTR{power/control}="auto", ATTR{remove}="1"
Reboot and run lspci
to see if your NVIDIA GPU is still listed.
Using bbswitch
With an NVidia GPU, this can be more safely done using bbswitch, which consists of a kernel package that automatically issues the correct ACPI calls to disable the discrete GPU when not needed, or automatically at boot.
Using acpi_call
Otherwise, and for GPUs not supported by bbswitch, the same can be done manually installing the package.
Once installed load the kernel module:
# modprobe acpi_call
With the kernel module loaded, execute the script at
The script will go through all the known data buses and attempt to turn them off. You will get an output similar to the following:
# /usr/share/acpi_call/examples/turn_off_gpu.sh
Trying \_SB.PCI0.P0P1.VGA._OFF: failed Trying \_SB.PCI0.P0P2.VGA._OFF: failed Trying \_SB_.PCI0.OVGA.ATPX: failed Trying \_SB_.PCI0.OVGA.XTPX: failed Trying \_SB.PCI0.P0P3.PEGP._OFF: failed Trying \_SB.PCI0.P0P2.PEGP._OFF: failed Trying \_SB.PCI0.P0P1.PEGP._OFF: failed Trying \_SB.PCI0.MXR0.MXM0._OFF: failed Trying \_SB.PCI0.PEG1.GFX0._OFF: failed Trying \_SB.PCI0.PEG0.GFX0.DOFF: failed Trying \_SB.PCI0.PEG1.GFX0.DOFF: failed '''Trying \_SB.PCI0.PEG0.PEGP._OFF: works!''' Trying \_SB.PCI0.XVR0.Z01I.DGOF: failed Trying \_SB.PCI0.PEGR.GFX0._OFF: failed Trying \_SB.PCI0.PEG.VID._OFF: failed Trying \_SB.PCI0.PEG0.VID._OFF: failed Trying \_SB.PCI0.P0P2.DGPU._OFF: failed Trying \_SB.PCI0.P0P4.DGPU.DOFF: failed Trying \_SB.PCI0.IXVE.IGPU.DGOF: failed Trying \_SB.PCI0.RP00.VGA._PS3: failed Trying \_SB.PCI0.RP00.VGA.P3MO: failed Trying \_SB.PCI0.GFX0.DSM._T_0: failed Trying \_SB.PCI0.LPC.EC.PUBS._OFF: failed Trying \_SB.PCI0.P0P2.NVID._OFF: failed Trying \_SB.PCI0.P0P2.VGA.PX02: failed Trying \_SB_.PCI0.PEGP.DGFX._OFF: failed Trying \_SB_.PCI0.VGA.PX02: failed
See the "works"? This means the script found a bus which your GPU sits on and it has now turned off the chip. To confirm this, your battery time remaining should have increased.
Turning off the GPU automatically
Currently, the chip will turn back on with the next reboot. To get around this, load the module at boot:
At boot
To turn off the GPU at boot it is possible to use systemd-tmpfiles.
The configuration above will be loaded at boot by systemd. What it does is write the specific OFF signal to the file. Obviously, replace the with the one which works on your system (please note that you need to escape the backslash).
After X server initialization
On some systems, turning off the discrete GPU before the X server is initialized may hang the system. In such cases, it may be better to disable the GPU after X server initialization, which is possible with some display managers. In LightDM, for instance, the display-setup-script seat configuration parameter could be used to execute a script as root that disables the GPU.
System76
Some System76 laptops (like the Oryx Pro) have their own unique hybrid graphics option. To make use of it, install , enable , and run .