savage(4) - Linux man page

Name

Synopsis

Section Device  Identifier devname  Driver savage  ...
EndSection

Description

Savage3D

(8a20 and 8a21) (2D, 3D)

Savage4

(8a22) (2D, 3D)

Savage2000

(9102) (2D only)

Savage/MX

(8c10 and 8c11) (2D, 3D, Dualhead)

Savage/IX

(8c12 and 8c13) (2D, 3D, Dualhead)

SuperSavage/MX

(8c22, 8c24, and 8c26) (2D, 3D, Dualhead)

SuperSavage/IX

(8c2a, 8c2b, 8c2c, 8c2d, 8c2e, and 8c2f) (2D, 3D, Dualhead)

ProSavage PM133

(8a25) (2D, 3D)

ProSavage KM133

(8a26) (2D, 3D)

Twister (ProSavage PN133)

(8d01) (2D, 3D)

TwisterK (ProSavage KN133)

(8d02) (2D, 3D)

ProSavage DDR

(8d03) (2D, 3D)

ProSavage DDR-K

(8d04) (2D, 3D)

Configuration Details

The following driver Options are supported:

Option HWCursor boolean

Option SWCursor boolean

These two options interact to specify hardware or software cursor. If the SWCursor option is specified, any HWCursor setting is ignored. Thus, either HWCursor off or SWCursor on will force the use of the software cursor. On Savage/MX and Savage/IX chips which are connected to LCDs, a software cursor will be forced, because the Savage hardware cursor does not correctly track the automatic panel expansion feature. Default: hardware cursor.

Option NoAccel boolean

Disable or enable acceleration. Default: acceleration is enabled.

Option AccelMethod string

Chooses between available acceleration architectures. Valid options are XAA and EXA. XAA is the traditional acceleration architecture and support for it is very stable. EXA is a newer acceleration architecture with better performance for the Render and Composite extensions, but the rendering code for it is newer and possibly unstable. The default is XAA.

Option Rotate CW

Option Rotate CCW

Rotate the desktop 90 degrees clockwise or counterclockwise. This option forces the ShadowFB option on, and disables acceleration and the RandR extension. Default: no rotation.

Option ShadowFB boolean

Enable or disable use of the shadow framebuffer layer. This option disables acceleration. Default: off.

Option LCDClock frequency

Override the maximum dot clock. Some LCD panels produce incorrect results if they are driven at too fast of a frequency. If UseBIOS is on, the BIOS will usually restrict the clock to the correct range. If not, it might be necessary to override it here. The frequency parameter may be specified as an integer in Hz (135750000), or with standard suffixes like "k", "kHz", "M", or "MHz" (as in 135.75MHz).

Option CrtOnly boolean

This option disables output to the LCD and enables output to the CRT port only. It is useful on laptops if you only want to use the CRT port or to force the CRT output only on desktop cards that use mobile chips. Default: auto-detect active outputs

Option UseBIOS boolean

Enable or disable use of the video BIOS to change modes. Ordinarily, the savage driver tries to use the video BIOS to do mode switches. This generally produces the best results with the mobile chips (/MX and /IX), since the BIOS knows how to handle the critical but unusual timing requirements of the various LCD panels supported by the chip. To do this, the driver searches through the BIOS mode list, looking for the mode which most closely matches the xorg.conf mode line. Some purists find this scheme objectionable. If you would rather have the savage driver use your mode line timing exactly, turn off the UseBios option. Note: Use of the BIOS is required for dualhead operation. Default: on (use the BIOS).

Option IgnoreEDID boolean

Do not use EDID data for mode validation, but DDC is still used for monitor detection. This is different from NoDDC option.
The default value is off.

Option ShadowStatus boolean

Enables the use of a shadow status register. There is a chip bug in the Savage graphics engine that can cause a bus lock when reading the engine status register under heavy load, such as when scrolling text or dragging windows. The bug affects about 4% of all Savage users without DRI and a large fraction of users with DRI. If your system hangs regularly while scrolling text or dragging windows, try turning this option on. This uses an alternate method of reading the engine status which is slightly more expensive, but avoids the problem. When DRI is enabled then the default is on (use shadow status), otherwise the default is off (use normal status register).

Option DisableCOB boolean

Disables the COB (Command Overflow Buffer) on savage4 and newer chips. There is supposedly a HW cache coherency problem on certain savage4 and newer chips that renders the COB useless. If you are having problems with 2D acceleration you can disable the COB, however you will lose some performance. 3D acceleration requires the COB to work. This option only applies to Savage4 and newer chips. Default: off (use COB).

Option BCIforXv boolean

Use the BCI to copy and reformat Xv pixel data. Using the BCI for Xv causes graphics artifacts on some chips. This option only applies to Savage4 and prosavage/twister chips. On some combinations of chipsets and video players, BCI formatting might actually be slower than software formatting (AGPforXv might help in this case). BCI formatting can only be used on video data with a width that is a multiple of 16 pixels (which is the vast majority of videos). Other widths are handled through software formatting. Default: on for prosavage and twister (use BCI for Xv); off for savage4 (do not use the BCI for Xv).

Option AGPforXv boolean

Instructs the BCI Xv pixel formatter to use AGP memory as a scratch buffer. Ordinarily the BCI formatter uses a an area in framebuffer memory to hold YV12 planar data to be converted for display. This requires a somewhat expensive upload of YV12 data to framebuffer memory. The AGPforXv option causes the BCI formatter to place the YV12 data in AGP memory instead, which can be uploaded faster than the framebuffer. Use of this option cuts upload overhead by 25% according to benchmarks. This option also smooths out most of the shearing present when using BCI for pixel conversion. Currently this option is experimental and is disabled by default. Video width restrictions that apply to BCIforXv also apply here. Only valid when DRI and BCIforXv are both active, and only on AGP chipsets. Default: off.
If AccelMethod is set to EXA and AGPforXv is enabled, then the driver will also attempt to reuse the AGP scratch buffer for UploadToScreen acceleration.

Option AGPMode integer

Set AGP data transfer rate. (used only when DRI is enabled)
1 -- x1 (default)
2 -- x2
4 -- x4
others -- invalid

Option AGPSize integer

The amount of AGP memory that will allocated for DMA and textures in MB. Valid sizes are 4, 8, 16, 32, 64, 128 and 256. The default is 16MB.

Option DmaMode string

This option influences in which way DMA (direct memory access) is used by the kernel and 3D drivers.
Any -- Try command DMA first, then vertex DMA (default)
Command -- Only use command DMA or don't use DMA at all
Vertex -- Only use vertex DMA or don't use DMA at all
None -- Disable DMA
Command and vertex DMA cannot be enabled at the same time. Which DMA mode is actually used in the end also depends on the DRM version (only >= 2.4.0 supports command DMA) and the hardware (Savage3D/MX/IX doesn't support command DMA).

Option DmaType string

The type of memory that will be used by the 3D driver for DMA (direct memory access).
PCI -- PCI memory (default on PCI cards)
AGP -- AGP memory (default on AGP cards)
AGP only works if you have an AGP card.

Option BusType string

The bus type that will be used to access the graphics card.
PCI -- PCI bus (default on PCI cards)
AGP -- AGP bus (default on AGP cards)
AGP only works if you have an AGP card. If you choose PCI on an AGP card the AGP bus speed is not set and no AGP aperture is allocated. This implies DmaType PCI.

Option DRI boolean

Enable DRI support. This option allows you to enable or disable the DRI. Default: on (enable DRI).

Files

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