Contents

1. Layout of the nvidia-settings GUI

The category list is organized in a tree: each X screen contains the relevant subcategories beneath it. Similarly, the Display Devices category for a screen contains all the enabled display devices beneath it. Besides each X screen, the other top level category is "nvidia-settings Configuration", which configures behavior of the nvidia-settings application itself.

Along the bottom of the nvidia-settings GUI, from left to right, is:

1)

a status bar which indicates the most recently altered option;

2)

a Help button that toggles the display of a help window which provides a detailed explanation of the available options in the current page; and

3)

a Quit button to exit nvidia-settings.

Most options throughout nvidia-settings are applied immediately. Notable exceptions are OpenGL options which are only read by OpenGL when an OpenGL application starts.

Details about the options on each page of nvidia-settings are available in the help window.

2. How OpenGL Interacts with nvidia-settings

For example, by default OpenGL uses the FSAA setting requested by the application (normally, applications do not request any FSAA). An FSAA setting specified in nvidia-settings would override the OpenGL application's request. Similarly, the __GL_FSAA_MODE environment variable will override the application's FSAA setting, as well as any FSAA setting specified in nvidia-settings.

Note that an OpenGL application only retrieves settings from the X server when it starts, so if you make a change to an OpenGL value in nvidia-settings, it will only apply to OpenGL applications which are started after that point in time.

3. Loading Settings Automatically

The configuration file is named ~/.nvidia-settings-rc. You can specify a different configuration file name with the --config command line option.

After you have run nvidia-settings once and have generated a configuration file, you can then run:

nvidia-settings --load-config-only

at any time in the future to upload these settings to the X server again. For example, you might place the above command in your ~/.xinitrc file so that your settings are applied automatically when you log in to X.

Your .xinitrc file, which controls what X applications should be started when you log into X (or startx), might look something like this:

     nvidia-settings --load-config-only &
     xterm &
     evilwm

     nvidia-settings --load-config-only &
     gnome-session

     /etc/X11/xinit/xinitrc

     nvidia-settings --load-config-only &
     . /etc/X11/xinit/xinitrc

Please see the xinit(1) man page for further details of configuring your ~/.xinitrc file.

4. Command Line Interface

The --query option can be used to query the current value of attributes. This will also report the valid values for the attribute. You can run nvidia-settings --query all for a complete list of available attributes, what the current value is, what values are valid for the attribute, and through which target types (e.g., X screens, GPUs) the attributes can be addressed. Additionally, individual attributes may be specified like this:

        nvidia-settings --query Overlay

        nvidia-settings --query localhost:0.0/Overlay

        nvidia-settings --query 0/Overlay

Attributes can be addressed through "target types". A target type indicates the object that is queried when you query an attribute. The default target type is an X screen, but other possible target types are GPUs, Frame Lock devices, Visual Computing Systems, SDI Input Devices, fans, thermal sensors, 3D Vision Pro Transceivers and display devices.

Target types give you different granularities with which to perform queries and assignments. Since X screens can span multiple GPUs (in the case of Xinerama, or SLI), and multiple X screens can exist on the same GPU, it is sometimes useful to address attributes by GPU rather than X screen.

A target specification is contained within brackets and may consist of a target type name, a colon, and the target id. The target type name can be one of screen, gpu, framelock, vcs, gvi, fan, thermalsensor, svp, or dpy; the target id is the index into the list of targets (for that target type). Target specifications can be used wherever an X screen is used in query and assignment commands; the target specification can be used either by itself on the left side of the forward slash, or as part of an X Display name.

For example, the following queries address X screen 0 on the localhost:

        nvidia-settings --query 0/VideoRam
        nvidia-settings --query localhost:0.0/VideoRam
        nvidia-settings --query [screen:0]/VideoRam
        nvidia-settings --query localhost:0[screen:0]/VideoRam

        nvidia-settings --query [gpu:0]/VideoRam
        nvidia-settings --query localhost:0[gpu:0]/VideoRam

	nvidia-settings --query localhost:0.1[gpu:0]/VideoRam

A target name may be used instead of a target id, in which case all targets with matching names are processed.

For example, querying the DigitalVibrance of display device DVI-I-1 may be done like so:

	nvidia-settings --query [dpy:DVI-I-1]/DigitalVibrance

	nvidia-settings --query [DVI-I-1]/DigitalVibrance

For exmple, querying the BusRate of all GPUs may be done like so:

	nvidia-settings --query [gpu]/BusRate

The target specification may also include a target qualifier. This is useful to limit processing to a subset of targets, based on an existing relationship(s) to other targets. The target qualifier is specified by prepending a target type name, a colon, the target id, and a period to the existing specification. Only one qualitfer may be specified.

For example, querying the RefreshRate of all DFP devices on GPU 1 may be done like so:

	nvidia-settings --query [GPU:1.DPY:DFP]/RefreshRate

	nvidia-settings --query [DFP.GPU]/BusType

See the output of

        nvidia-settings --query all

        nvidia-settings --query screens --query gpus --query framelocks --query vcs --query gvis --query fans --query thermalsensors --query svps --query dpys

To enable support for the "GPUGraphicsClockOffset" and "GPUMemoryTransferRateOffset" attributes, ensure that the "Coolbits" X configuration option includes the value "8" in the bitmask. For more details, refer to the documentation of the "Coolbits" option in the NVIDIA driver README. Query the "GPUPerfModes" string attribute to see a list of the available performance modes:

	nvidia-settings --query GPUPerfModes 

Each performance mode is presented as a comma-separated list of "token=value" pairs. Each set of performance mode tokens is separated by a ";". The "perf" token indicates the performance level. The "*editable" tokens indicate which domains within the performance level can have an offset applied. The "GPUGraphicsClockOffset" and "GPUMemoryTransferRateOffset" attributes map respectively to the "nvclock" and "memtransferrate" tokens of performance levels in the "GPUPerfModes" string.

Note that the clock manipulation attributes "GPUGraphicsClockOffset" and "GPUMemoryTransferRateOffset" apply to the offsets of specific performance levels. The performance level is specified in square brackets after the attribute name. For example, to query the "GPUGraphicsClockOffset" for performance level 2:

	nvidia-settings --query GPUGraphicsClockOffset[2]

        nvidia-settings --assign FSAA=2
        nvidia-settings --assign [CRT-1]/DigitalVibrance=9
        nvidia-settings --assign [gpu:0]/DigitalVibrance=0
        nvidia-settings --assign [gpu:0]/GPUGraphicsClockOffset[2]=10

Multiple queries and assignments may be specified on the command line for a single invocation of nvidia-settings. Assignments are processed in the order they are entered on the command line. If multiple assignments are made to the same attribute or to multiple attributes with dependencies, then the later assignments will have priority.

If either the --query or --assign options are passed to nvidia-settings, the GUI will not be presented, and nvidia-settings will exit after processing the assignments and/or queries. In this case, settings contained within the ~/.nvidia-settings-rc configuration file will not be automatically uploaded to the X server, nor will the ~/.nvidia-settings-rc configuration file be automatically updated to reflect attribute assignments made via the --assign option.

5. X Display Names in the Config File

        nvidia-settings --query FSAA
        nvidia-settings --query 0/FSAA
        nvidia-settings --query stravinsky.nvidia.com:0/FSAA

The same possibilities are available in the ~/.nvidia-settings-rc configuration file.

For example, in a computer lab environment, you might log into any of multiple workstations, and your home directory is NFS mounted to each workstation. In such a situation, you might want your ~/.nvidia-settings-rc file to be applicable to all the workstations. Therefore, you would not want your config file to qualify each attribute with an X Display Name. Leave the "Include X Display Names in the Config File" option unchecked on the nvidia-settings Configuration page (this is the default).

There may be cases when you do want attributes in the config file to be qualified with the X Display name. If you know what you are doing and want config file attributes to be qualified with an X Display, check the "Include X Display Names in the Config File" option on the nvidia-settings Configuration page.

In the typical home user environment where your home directory is local to one computer and you are only configuring one X Display, then it does not matter whether each attribute setting is qualified with an X Display Name.

6. Connecting to Remote X Servers

        nvidia-settings --display=bartok.nvidia.com:0 \
            --ctrl-display=schoenberg.nvidia.com:0

Note, however, that you will need to have X permissions configured such that you can establish an X connection from the computer on which you are running nvidia-settings (stravinsky.nvidia.com) to the computer where you are displaying the GUI (bartok.nvidia.com) and the computer whose X Display you are configuring (schoenberg.nvidia.com).

The simplest, most common, and least secure mechanism to do this is to use 'xhost' to allow access from the computer on which you are running nvidia-settings.

        (issued from bartok.nvidia.com)
        xhost +stravinsky.nvidia.com
        (issued from schoenberg.nvidia.com)
        xhost +stravinsky.nvidia.com

Please see the xauth(1) and xhost(1) man pages, or refer to your system documentation on remote X applications and security. You might also Google for terms such as "remote X security" or "remote X Windows", and see documents such as the Remote X Apps mini-HOWTO:

⟨ http://www.tldp.org/HOWTO/Remote-X-Apps.html ⟩

Please also note that the remote X server to be controlled must be using the NVIDIA X driver.

7. Licensing

⟨ ftp://download.nvidia.com/XFree86/nvidia-settings/ ⟩

Note that nvidia-settings is simply an NV-CONTROL client. It uses the NV-CONTROL X extension to communicate with the NVIDIA X server to query current settings and make changes to settings.

You can make additions directly to nvidia-settings, or write your own NV-CONTROL client, using nvidia-settings as an example.

Documentation on the NV-CONTROL extension and additional sample clients are available in the nvidia-settings source tarball. Patches can be submitted to linux-bugs@nvidia.com.

8. TODO

-

different toolkits? The GUI for nvidia-settings is cleanly abstracted from the back-end of nvidia-settings that parses the configuration file and command line, communicates with the X server, etc. If someone were so inclined, a different front-end GUI could be implemented.

-

write a design document explaining how nvidia-settings is designed; presumably this would make it easier for people to become familiar with the code base.

If there are other things you would like to see added (or better yet, would like to add yourself), please contact linux-bugs@nvidia.com.