NVIDIA/Tips and tricks
- 1 Fixing terminal resolution
- 2 Using TV-out
- 3 X with a TV (DFP) as the only display
- 4 Check the power source
- 5 Listening to ACPI events
- 6 Displaying GPU temperature in the shell
- 7 Set fan speed at login
- 8 Manual configuration
Fixing terminal resolution
Transitioning from nouveau may cause your startup terminal to display at a lower resolution. For GRUB, see GRUB/Tips and tricks#Setting the framebuffer resolution for details.
A good article on the subject can be found here.
X with a TV (DFP) as the only display
The X server falls back to CRT-0 if no monitor is automatically detected. This can be a problem when using a DVI connected TV as the main display, and X is started while the TV is turned off or otherwise disconnected.
To force NVIDIA to use DFP, store a copy of the EDID somewhere in the filesystem so that X can parse the file instead of reading EDID from the TV/DFP.
To acquire the EDID, start nvidia-settings. It will show some information in tree format, ignore the rest of the settings for now and select the GPU (the corresponding entry should be titled "GPU-0" or similar), click the
DFP section (again,
DFP-0 or similar), click on the
Acquire Edid Button and store it somewhere, for example,
If in the front-end mouse and keyboard are not attached, the EDID can be acquired using only the command line. Run an X server with enough verbosity to print out the EDID block:
$ startx -- -logverbose 6
After the X Server has finished initializing, close it and your log file will probably be in
/var/log/Xorg.0.log. Extract the EDID block using nvidia-xconfig:
$ nvidia-xconfig --extract-edids-from-file=/var/log/Xorg.0.log --extract-edids-output-file=/etc/X11/dfp0.bin
xorg.conf by adding to the
Option "ConnectedMonitor" "DFP" Option "CustomEDID" "DFP-0:/etc/X11/dfp0.edid"
ConnectedMonitor option forces the driver to recognize the DFP as if it were connected. The
CustomEDID provides EDID data for the device, meaning that it will start up just as if the TV/DFP was connected during X the process.
This way, one can automatically start a display manager at boot time and still have a working and properly configured X screen by the time the TV gets powered on.
If the above changes did not work, in the
Device section you can try to remove the
Option "ConnectedMonitor" "DFP" and add the following lines:
Option "ModeValidation" "NoDFPNativeResolutionCheck" Option "ConnectedMonitor" "DFP-0"
NoDFPNativeResolutionCheck prevents NVIDIA driver from disabling all the modes that do not fit in the native resolution.
Check the power source
The NVIDIA X.org driver can also be used to detect the GPU's current source of power. To see the current power source, check the 'GPUPowerSource' read-only parameter (0 - AC, 1 - battery):
$ nvidia-settings -q GPUPowerSource -t
Listening to ACPI events
NVIDIA drivers automatically try to connect to the acpid daemon and listen to ACPI events such as battery power, docking, some hotkeys, etc. If connection fails, X.org will output the following warning:
NVIDIA(0): ACPI: failed to connect to the ACPI event daemon; the daemon NVIDIA(0): may not be running or the "AcpidSocketPath" X NVIDIA(0): configuration option may not be set correctly. When the NVIDIA(0): ACPI event daemon is available, the NVIDIA X driver will NVIDIA(0): try to use it to receive ACPI event notifications. For NVIDIA(0): details, please see the "ConnectToAcpid" and NVIDIA(0): "AcpidSocketPath" X configuration options in Appendix B: X NVIDIA(0): Config Options in the README.
While completely harmless, you may get rid of this message by disabling the
ConnectToAcpid option in your
Section "Device" ... Driver "nvidia" Option "ConnectToAcpid" "0" ... EndSection
If you are on laptop, it might be a good idea to install and enable the acpid daemon instead.
Displaying GPU temperature in the shell
To display the GPU temp in the shell, use
nvidia-settings as follows:
$ nvidia-settings -q gpucoretemp
This will output something similar to the following:
Attribute 'GPUCoreTemp' (hostname:0.0): 41. 'GPUCoreTemp' is an integer attribute. 'GPUCoreTemp' is a read-only attribute. 'GPUCoreTemp' can use the following target types: X Screen, GPU.
The GPU temps of this board is 41 C.
In order to get just the temperature for use in utils such as
conky, among others:
$ nvidia-settings -q gpucoretemp -t
Use nvidia-smi which can read temps directly from the GPU without the need to use X at all. This is important for a small group of users who do not have X running on their boxes, perhaps because the box is headless running server apps. To display the GPU temperature in the shell, use nvidia-smi as follows:
This should output something similar to the following:
Fri Jan 6 18:53:54 2012 +------------------------------------------------------+ | NVIDIA-SMI 2.290.10 Driver Version: 290.10 | |-------------------------------+----------------------+----------------------+ | Nb. Name | Bus Id Disp. | Volatile ECC SB / DB | | Fan Temp Power Usage /Cap | Memory Usage | GPU Util. Compute M. | |===============================+======================+======================| | 0. GeForce 8500 GT | 0000:01:00.0 N/A | N/A N/A | | 30% 62 C N/A N/A / N/A | 17% 42MB / 255MB | N/A Default | |-------------------------------+----------------------+----------------------| | Compute processes: GPU Memory | | GPU PID Process name Usage | |=============================================================================| | 0. ERROR: Not Supported | +-----------------------------------------------------------------------------+
Only for temperature:
$ nvidia-smi -q -d TEMPERATURE
====NVSMI LOG==== Timestamp : Sun Apr 12 08:49:10 2015 Driver Version : 346.59 Attached GPUs : 1 GPU 0000:01:00.0 Temperature GPU Current Temp : 52 C GPU Shutdown Temp : N/A GPU Slowdown Temp : N/A
In order to get just the temperature for use in utils such as rrdtool or conky, among others:
$ nvidia-smi --query-gpu=temperature.gpu --format=csv,noheader,nounits
Use AUR.AUR which is available from the
nvclockcannot access thermal sensors on newer NVIDIA cards such as Geforce 200 series cards.
There can be significant differences between the temperatures reported by nvclock and nvidia-settings/nv-control. According to this post by the author (thunderbird) of nvclock, the nvclock values should be more accurate.
Set fan speed at login
You can adjust the fan speed on your graphics card with nvidia-settings' console interface. First ensure that your Xorg configuration sets the Coolbits option to
12 for fermi and above in your
Device section to enable fan control.
Option "Coolbits" "4"
Place the following line in your xinitrc file to adjust the fan when you launch Xorg. Replace
n with the fan speed percentage you want to set.
nvidia-settings -a "[gpu:0]/GPUFanControlState=1" -a "[fan:0]/GPUCurrentFanSpeed=n"
You can also configure a second GPU by incrementing the GPU and fan number.
nvidia-settings -a "[gpu:0]/GPUFanControlState=1" -a "[fan:0]/GPUCurrentFanSpeed=n" \ -a "[gpu:1]/GPUFanControlState=1" -a [fan:1]/GPUCurrentFanSpeed=n" &
If you use a login manager such as GDM or KDM, you can create a desktop entry file to process this setting. Create
~/.config/autostart/nvidia-fan-speed.desktop and place this text inside it. Again, change
n to the speed percentage you want.
[Desktop Entry] Type=Application Exec=nvidia-settings -a "[gpu:0]/GPUFanControlState=1" -a "[fan:0]/GPUCurrentFanSpeed=n" X-GNOME-Autostart-enabled=true Name=nvidia-fan-speed
GPUCurrentFanSpeedhas to be replaced with
See NVIDIA Accelerated Linux Graphics Driver README and Installation Guide for additional details and options.
Disabling the logo on startup
"NoLogo" option under section
Option "NoLogo" "1"
Overriding monitor detection
"ConnectedMonitor" option under section
Device allows to override monitor detection when X server starts, which may save a significant amount of time at start up. The available options are:
"CRT" for analog connections,
"DFP" for digital monitors and
"TV" for televisions.
The following statement forces the NVIDIA driver to bypass startup checks and recognize the monitor as DFP:
Option "ConnectedMonitor" "DFP"
Enabling brightness control
Add under section
Option "RegistryDwords" "EnableBrightnessControl=1"
If brightness control still does not work with this option, try installingAUR or AUR.
Taken from the NVIDIA driver's README Appendix B: This option controls the configuration of SLI rendering in supported configurations. A "supported configuration" is a computer equipped with an SLI-Certified Motherboard and 2 or 3 SLI-Certified GeForce GPUs. See NVIDIA's SLI Zone for more information.
Find the first GPU's PCI Bus ID using
$ lspci | grep VGA
03:00.0 VGA compatible controller: nVidia Corporation G92 [GeForce 8800 GTS 512] (rev a2) 05:00.0 VGA compatible controller: nVidia Corporation G92 [GeForce 8800 GTS 512] (rev a2)
Add the BusID (3 in the previous example) under section
Add the desired SLI rendering mode value under section
Option "SLI" "AA"
The following table presents the available rendering modes.
|0, no, off, false, Single||Use only a single GPU when rendering.|
|1, yes, on, true, Auto||Enable SLI and allow the driver to automatically select the appropriate rendering mode.|
|AFR||Enable SLI and use the alternate frame rendering mode.|
|SFR||Enable SLI and use the split frame rendering mode.|
|AA||Enable SLI and use SLI antialiasing. Use this in conjunction with full scene antialiasing to improve visual quality.|
Alternatively, you can use the
nvidia-xconfig utility to insert these changes into
xorg.conf with a single command:
# nvidia-xconfig --busid=PCI:3:0:0 --sli=AA
To verify that SLI mode is enabled from a shell:
$ nvidia-settings -q all | grep SLIMode
Attribute 'SLIMode' (arch:0.0): AA 'SLIMode' is a string attribute. 'SLIMode' is a read-only attribute. 'SLIMode' can use the following target types: X Screen.
Overclocking is controlled via Coolbits option in the
Device section, which enables various unsupported features:
Option "Coolbits" "value"
# nvidia-xconfig --cool-bits=value
The Coolbits value is the sum of its component bits in the binary numeral system. The component bits are:
1(bit 0) - Enables overclocking of older (pre-Fermi) cores on the Clock Frequencies page in nvidia-settings.
2(bit 1) - When this bit is set, the driver will "attempt to initialize SLI when using GPUs with different amounts of video memory".
4(bit 2) - Enables manual configuration of GPU fan speed on the Thermal Monitor page in nvidia-settings.
8(bit 3) - Enables overclocking on the PowerMizer page in nvidia-settings. Available since version 337.12 for the Fermi architecture and newer.
16(bit 4) - Enables overvoltage using nvidia-settings CLI options. Available since version 346.16 for the Fermi architecture and newer.
To enable multiple features, add the Coolbits values together. For example, to enable overclocking and overvoltage of Fermi cores, set
Option "Coolbits" "24".
The documentation of Coolbits can be found in
/usr/share/doc/nvidia/html/xconfigoptions.html. Driver version 346.16 documentation on Coolbits can be found online here.
Setting static 2D/3D clocks
Set the following string in the
Device section to enable PowerMizer at its maximum performance level (VSync will not work without this line):
Option "RegistryDwords" "PerfLevelSrc=0x2222"