Information for Trident Chipset Users The XFree86 Project, Inc. June 25 1999 1. Supported chipsets The Trident driver has undergone some slight work for XFree86 3.3.3. Because of this work, all of the Trident SVGA chipsets, except the very first one, are supported by both the color and monochrome servers. 8800CS 8200LX 8900B 8900C 8900CL/D 9000 9000i 9100B 9200CXr 9320LCD 9400CXi 9420 9420DGi 9430DGi 9440AGi 9660XGi 9680 ProVidia9682 Pro- Vidia9685 Cyber9382 Cyber9385 Cyber9385-1 Cyber9388 Cyber9397 Cyber9520 Cyber9525 3DImage975(PCI) 3DImage975(AGP) 3DImage985(AGP) Blade3D CyberBlade It must be noted that the 9000i chipset is treated as a 9000 by the server. Additionally the 9100B is treated as a Trident 8900CL. Therefore it is equiv- alent to putting `Chipset "tvga8900cl"' or `Chipset "tvga9000"' in the XF86Config file. Also, note that the 9000i, 9100B have not been tested with the server, but should work in this way according to the chipset documenta- tion. NOTES: o The chipset keyword changed in XFree86 v3.3.2 and now you no longer specify 'tgui96xx' as the generic keyword, but you actually specify your chip. i.e. Chipset 'tgui9685' will set a ProVidia9685 chip. o The Cyber9388/9397, 3DImage975 and 3DImage985 cards are fixed in XFree86 v3.3.3, these chipsets have some acceleration now too. This acceleration has been disabled by default for the Cyber9388/9397 because there have been problems, but it can be re-enabled with the "accel" option (see below). o 24bpp is all drivers remains unaccelerated, this will change in a future version, although 32bpp acceleration is supported for all TGUI based chipset except the 9440 which doesn't have the capability. o 16bpp is now supported for the Cyber9320 chipset. Option "nolinear" Turn off linear mapping Option "linear" Force linear mapping. Use this if you have a non-PCI card and require 16bpp support. Note: ISA cards can only access up to 16MB of memory, so be sure you have less than this or it could cause a system hang. MemBase 0x??????? This option may be used to specify the start address of the linear frame buffer. By default for VLBus/EISA cards it is at 60MB. For the 8900CL/D, it is at 15MB. Option "no_mmio" This option turns off Memory Mapped IO support. MMIO is enabled by default when acceleration is enabled. Accelera- tion doesn't work well when MMIO is disabled. Option "tgui_pci_read_on" Turn on PCI burst read mode. Option "tgui_pci_write_on" Turn on PCI burst write mode. Option "pci_burst_on" Turn on PCI burst (read and write) Option "pci_burst_off" Turn off PCI burst (read and write) NOTE: PCI burst modes are now OFF by default for TGUI9440 cards because it often upsets its Graphics Accelerator. It can be turned it back on as may improve performance. PCI burst modes are ON by default for all other PCI/AGP cards. ClockChip "tgui" Turn on programmable clocks. This is the default for TGUIs. Option "no_program_clocks" Turn off programmable clock. Use fixed VGA clocks only. Useful for fixed frequency monitors - usually used for VGA monitors - not SVGA. Option "noaccel" Turn off XAA acceleration. Option "accel" Enable acceleration for the Cyber9388/9397. Option "xaa_no_color_exp" Disable color expansion. Option "no_stretch" Disable LCD stretching on Cyber 938x based chips. Option "lcd_center" Enable LCD centering on Cyber 938x based chips. Option "cyber_shadow" Enable Shadow registers, might be needed for some Cyber chipsets. (laptop machines) Option "tgui_mclk_66" Pushes the Memory Clock from its default value to 66MHz. Increases graphics speed dramatically, but use entirely at your own risk, as it may damage the video card. If snow appears, disable. Only tested on the 9440. The original Trident chipset, 8800BR, cannot be supported as an SVGA chipset by either the color or monochrome servers. The chip is supported, however, by the ``generic'' driver for the monochrome server. 2. Special considerations for 512k boards There are no longer any special considerations for 512k Trident boards. The driver is now configured so that they can use modes with normal timings. The available pixel clocks are halved compared with those specified on the Clocks line Be aware that older Trident chipsets support a maximum clock of 65Mhz. Hence the best actual clock available to the color server is 32.5Mhz. This means, in broad terms, that the color server will require an interlaced mode to be defined for resolutions above 640x480. Newer chipsets (8900CL, 9000, 9000i, 9100B, 9200CX and 9420) support up to 16 clocks, and can support much higher clocks, which will allow 800x600 modes, non-interlaced. 3. Additional Notes We have had reports of the server failing to detect the amount of installed memory and the correct dot-clocks on older TVGA8900 boards. If the server fails to detect the correct amount of memory, use the "Videoram" keyword in your XF86Config file to specify it. (e.g. Videoram 512 or Videoram 1024). If the server has problems detecting the dot-clocks, try adding the following line to your XF86Config file: Clocks 25 28 45 36 57 65 50 40 This line gives the clock values provided by older Trident clock synthesizer chipsets. This also appears to be the standard first 8 clocks for the newer clock synthesizers, but you should have no problems on newer boards. Some newer Trident 8900B/C boards are apparently being built with the clock synthesizers used on the 9000 and 8900CL boards. If your board has a chip labeled "Trident TCK900x" ("x" has been seen as 2 or 4; there may be others), your board may actually have a 4th clock select bit. The 9002 has twelve distinct clocks (the other 4 are duplicates); the 9004 has 16 clocks (the same 12 as the 9002 + 4 others). If you see such a chip on a board with an 8900B or 8900C, put the following line in the Device section of your XF86Con- fig file: Option "16clocks" This will cause the same clock selection code as is used for the 8900CL to be used for the board. While developing the Trident driver, an interesting and perturbing hardware phenomenon was discovered. When using the default board jumper configura- tion, dot-clocks above 57Mhz would frequently lock up the machine. There appear to be jumpers on all of the Trident boards that determine whether the board will operate in zero-wait-state mode on the ISA bus. Disabling the zero-wait-state mode via jumpers cured the lockups, but at the expense of performance. Whether or not a given system will experience this problem is likely a combination of (a) bus speed, (b) video memory speed, and (c) dot clock speed. So be prepared for this phenomenon to occur, and have the board documentation handy. NOTE: VLBus cards are also subject to the above. By specifying the Clocks in the XF86Config file, these lockups are overcome. But it may be worth checking wait states etc. on the card and in the BIOS setup. Generated from XFree86: xc/programs/Xserver/hw/xfree86/doc/sgml/trident.sgml,v 3.22.2.9 1999/06/25 08:57:15 hohndel Exp $ $XConsortium: trident.sgml /main/11 1996/10/28 04:24:08 kaleb $