829 lines
36 KiB
Plaintext
829 lines
36 KiB
Plaintext
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$Id: README.ati,v 1.1.1.1 2008/07/12 15:43:10 oga Exp $ Based on
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XFree86: xc/programs/Xserver/hw/xfree86/doc/sgml/ati.sgml,v
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3.42 2003/01/20 03:43:07 dawes Exp ATI Adapters README file
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Marc Aurele La France
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2002 February 12
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This is the README for the XAA ATI driver included in this release.
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______________________________________________________________________
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Table of Contents
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1. Statement of intent
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2. A note on acceleration
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3. Current implementation for ATI adapters
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4. Current implementation of generic VGA support for non-ATI adapters
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5. xorg.conf specifications
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5.1 Driver ``ati''
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5.2 ChipSet ``name''
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5.3 ChipID & ChipRev specifications
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5.4 IOBase
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5.5 BusID
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5.6 Clocks
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5.6.1 Clocks for supported programmable clock generators
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5.6.2 Clocks for unsupported programmable clock generators
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5.6.3 Clocks for fixed clock generators on ATI adapters
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5.6.4 Clocks for non-ATI adapters
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5.7 Option ``nopanel_display''
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5.8 Option ``crt_display''
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5.9 Option ``noaccel''
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5.10 Option ``nolinear''
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5.11 Option ``HWCursor'' and Option ``SWCursor''
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5.12 Option ``SilkenMouse''
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5.13 Option ``shadowfb''
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5.14 Option ``dpms''
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5.15 Option ``backingstore''
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5.16 MemBase address
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5.17 Option ``ReferenceClock'' ``frequency''
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5.18 ClockChip ``name''
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6. Video modes
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7. Known problems and limitations
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8. Reporting problems
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9. Driver history
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10. Driver versions
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______________________________________________________________________
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[1m1. Statement of intent[0m
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Generally speaking, the driver is intended for all ATI video adapters,
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providing maximum video function within hardware limitations. The
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driver is also intended to optionally provide the same level of
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support for generic VGA or 8514/A adapters. This driver is still
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being actively developed, meaning that it currently does not yet fully
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meet these goals.
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The driver will provide
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+o accelerated support if an ATI accelerator is detected [4mand[24m the user
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has not requested that this support be disabled; otherwise
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+o accelerated support if a non-ATI 8514/A-capable adapter is detected
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[4mand[24m the user has requested such support; otherwise
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+o unaccelerated SuperVGA support if an ATI VGA-capable adapter is
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detected; otherwise
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+o generic VGA support if a non-ATI VGA-capable adapter is detected
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[4mand[24m the user has requested such support.
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Thus, the level of support provided not only depends on what the
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driver detects in the system, but also, on what the user specifies
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in the xorg.conf file. See the [1m``xorg.conf specifications''[0m
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section below for details.
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If none of the above conditions are met, the ATI driver will
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essentially disable itself to allow other drivers to examine the
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system.
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Note that I am currently considering removing the driver's support for
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generic VGA. If you have any concerns about this, please contact me
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at <tsi@xfree86.org>.
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[1m2. A note on acceleration[0m
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The meaning of ``acceleration'', as used in this document, needs to be
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clarified. Two of the many components in an accelerator are the CRT
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controller (CRTC) and the Draw Engine. This is in addition to another
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CRTC that, generally, is also present in the system (often in the same
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chip) and typically provides EGA, VGA or SuperVGA functionality.
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A CRTC is the component of a graphics controller that is responsible
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for reading video memory for output to the screen. A Draw Engine is
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an accelerator component that can be programmed to manipulate video
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memory contents, thus freeing the CPU for other tasks.
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When the VGA CRTC is used, all drawing operations into video memory
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are the responsibility of the system's CPU, i.e. no Draw Engine can be
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used. On the other hand, if the accelerator's CRTC is chosen to drive
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the screen, the Draw Engine can also be used for drawing operations,
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although the CPU can still be used for this purpose if it can access
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the accelerator's video memory.
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Video acceleration refers to the programming of an accelerator's Draw
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Engine to offload drawing operations from the CPU, and thus also
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implies the use of the accelerator's CRTC.
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[1m3. Current implementation for ATI adapters[0m
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The driver currently supports the SuperVGA capabilities of all ATI
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adapters except some early Mach8 and Mach32 adapters that do not
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provide the required functionality. This support works for
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monochrome, 16-colour and 256-colour video modes, if one of the
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following ATI graphics controller chips is present:
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VGAWonder series: 18800, 18800-1, 28800-2, 28800-4, 28800-5, 28800-6
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Mach32 series: 68800-3, 68800-6, 68800AX, 68800LX
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Mach64 series: 88800GX-C, 88800GX-D, 88800GX-E, 88800GX-F, 88800CX,
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264CT, 264ET, 264VT, 264GT (3D Rage), 264VT-B, 264VT3,
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264VT4, 264GT-B (3D Rage II), 3D Rage IIc, 3D Rage Pro,
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3D Rage LT, 3D Rage LT Pro, 3D Rage XL, 3D Rage XC,
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3D Rage Mobility (including the -M and -P variants)
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The driver also supports 32K, 64K and 16M-colour modes on the 264xT
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and 3D Rage series of adapters using the accelerator CRTC (but not the
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VGA CRTC).
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The newer Rage 128 and Radeon chips are not yet supported by this
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driver. Rage 128's and Radeon's are, however, supported by separate
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drivers, and owners of such adapters should consult the documentation
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provided with these drivers. This driver will also invoke the
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appropriate driver if it finds Rage 128 and/or Radeon adapter(s) in
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the system.
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Adapters based on the above chips have been marketed under a rather
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large number of names over the years. Among them are:
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VGAWonder series: VGAWonder V3, VGAWonder V4, VGAWonder V5, VGAWonder+,
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VGAWonder XL, VGAWonder XL24, VGAWonder VLB, VGA Basic,
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VGA Basic 16, VGA Edge, VGA Edge 16, VGA Integra,
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VGA Charger, VGAStereo F/X, VGA 640, VGA 800, VGA 1024,
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VGA 1024D, VGA 1024 XL, VGA 1024 DXL, VGA 1024 VLB
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Mach8 series: Graphics Ultra, Graphics Vantage, VGAWonder GT
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(None of the 8514/Ultra and 8514 Vantage series is
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supported at this time)
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Mach32 series: Graphics Ultra+, Graphics Ultra Pro, Graphics Wonder,
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Graphics Ultra XLR, Graphics Ultra AXO, VLB mach32-D,
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PCI mach32-D, ISA mach32
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Mach64 series: Graphics Xpression, Graphics Pro Turbo, WinBoost,
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WinTurbo, Graphics Pro Turbo 1600, Video Xpression,
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3D Xpression, Video Xpression+, 3D Xpression+,
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3D Charger, Video Charger, WinCharger, All-In-Wonder,
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All-In-Wonder PRO, 3D Pro Turbo, XPERT@Play,
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XPERT@Play 98, XPERT@Work, XPERT 98, XPERT LCD,
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XPERT XL
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Also, a number of mainboards, laptops and notebooks harbour a Mach32
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or Mach64 controller.
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VGAWonder, Mach8 and Mach32 ISA adapters are available with or without
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a mouse.
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These adapters are available with a variety of clock generators and
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RAMDACs. The 264xT and 3D Rage series of chips are integrated
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controllers, meaning that they include a programmable clock generator
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and a RAMDAC.
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For all but Mach64 adapters, this driver still does not provide
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support for accelerated drawing to the screen. This means that all
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drawing is done by the CPU, rather than by any accelerator present in
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the system. This can make opaque moves, for example, quite ``jerky''.
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Also, given that IBM 8514/A and ATI Mach8 do not allow CPU access to
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their frame buffer, the driver will currently ignore these
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accelerators. Most Mach32 adapters provide both accelerated function
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and SuperVGA functionality, but the driver currently only uses the
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VGA.
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The driver [4mdoes[24m however support the accelerator CRTC present in all
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ATI Mach64 adapters. For 256-colour, and higher depth modes, this
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support will be used by default, although an xorg.conf option can be
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specified to use the SuperVGA CRTC instead. A linear video memory
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aperture is also available in 256-colour and higher depth modes and
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enabled by default if a 264xT or 3D Rage controller is detected or, on
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88800 controllers, if the accelerator CRTC is used. xorg.conf options
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are available to disable this aperture, or (for non-PCI adapters)
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enable it or move it to some other address.
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By default, the driver provides some acceleration for Mach64 if the
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accelerator CRTC is used, and modes whose colour depth greater than or
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equal to 8 are to be used. This support is as yet incomplete and can
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be disabled entirely with an xorg.conf option.
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On non-Intel platforms, the driver can, currently, only support PCI
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Mach64 adapters.
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[1m4. Current implementation of generic VGA support for non-ATI adapters[0m
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Support for generic VGA with non-ATI adapters is also implemented, but
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has undergone only limited testing. The driver will intentionally
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disallow the use of this support with ATI adapters. This support must
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be explicitly requested through an xorg.conf ChipSet specification.
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This prevents the current VGA generic driver from being disabled.
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This driver's generic VGA support is intended as an extension of that
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provided by the current generic driver. Specifically, within the
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architectural bounds defined by IBM's VGA standard, this driver will
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allow the use of any 256-colour mode, and any dot clock frequencies
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both of which allow for many more mode possibilities.
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The driver will enforce the following limitations derived from IBM's
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original VGA implementation:
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+o There can only be a set of four (non-programmable) clocks to choose
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from.
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+o Video memory is limited to 256kB in monochrome and 16-colour modes.
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+o Video memory is limited to 64kB in 256-colour modes.
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+o Interlaced modes are not available.
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+o Colour depths higher than 8 are not available.
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[1m5. xorg.conf specifications[0m
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The driver recognises a number of xorg.conf options. In general, all
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such options should be specified in a ``Device'' section, and affect
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only that ``Device'' section.
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Those options that affect how the driver associates adapters with
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``Device'' sections are described first. The driver will ignore (with
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a message) a ``Device'' section if the section cannot be associated
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with exactly one adapter in the system. Similarly, the driver will
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ignore, or disable, (with a message) any adapter that cannot be
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associated with exactly one ``Device'' section. Thus, these options
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will be required in those uncommon cases where such unique
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associations cannot automatically be made by the driver.
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Other options affect the driver's operation once an adapter has been
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assigned to the ``Device'' section which contains them.
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[1m5.1. Driver ``ati''[0m
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The use of this specification is highly recommended if the ``Device''
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section is to be recognised by the driver. In fact, it is almost (but
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not quite) mandatory, particularly when using the loader server as it
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indicates what driver is to be loaded and associated with the
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``Device'' section.
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[1m5.2. ChipSet ``name''[0m
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The default ChipSet name for this driver is ``[4mati[24m''. In this case,
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any ATI adapter can be associated with the ``Device'' section. If an
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ATI accelerator is detected and the driver supports it, the
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accelerator's CRTC will be used to drive the screen. Otherwise, the
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driver will programme the adapter's SuperVGA CRTC.
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If ``[4mativga[24m'' is specified instead, the driver will ignore any ATI
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accelerator it detects, but otherwise operate as if ``[4mati[24m'' had been
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specified. This specification ensures the VGA CRTC is used.
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A ChipSet name of ``[4mibmvga[24m'' causes any VGA-capable adapter in the
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system to be associated with the ``Device'' section. It enables the
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driver's generic VGA support, but only for non-ATI adapters. If an
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ATI adapter is associated with the ``Device'' section, the driver will
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operate as if ``[4mativga[24m'' had been specified instead.
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A ChipSet name of ``[4mvgawonder[24m'' is equivalent to ``[4mativga[24m'', except
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that only VGAWonder-capable adapters can be assigned to the ``Device''
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section. This specifically excludes the newer integrated Mach64
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controllers.
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In some PCI or AGP systems, the driver will not, by default, probe for
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non-PCI Mach32's or Mach64's. This is because, before doing any such
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probe, the driver attempts to determine if the probe can cause a
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lockup. If the driver has enough information to determine that a
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lockup would occur, it will skip the probe. In some situations, this
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determination cannot be accurate, and the driver will err on the side
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of caution, skipping the probe. Specifying a ChipSet name of
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``[4mmach32[24m'' or ``[4mmach64[24m'', as appropriate, will force the driver to
|
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probe for the non-PCI adapter. These ChipSet names should, therefore,
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only be used when there is in fact such an adapter in the system.
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They are otherwise equivalent to ``[4mati[24m''.
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On non-Intel platforms, only ``[4mati[24m'' and ``[4mmach64[24m'' ChipSet values are
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operative.
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[1m5.3. ChipID & ChipRev specifications[0m
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These specifications will cause the driver to associate the ``Device''
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section only with an adapter having the same attributes, or an adapter
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whose PCI device ID the driver does not recognise. In the second
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case, these options cause the driver to treat the adapter as if it was
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one with the specified PCI device ID or revision. ChipID can only be
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used with Mach32 or Mach64 adapters, and, thus, specifically excludes
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any other adapter from matching the ``Device'' section. ChipRev is
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meaningful only with Mach64 adapters, and then only if ChipID is also
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specified in the same ``Device'' section.
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|
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[1m5.4. IOBase[0m
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|
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This option limits the adapters that can be associated with the
|
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``Device'' section to the one with the specified I/O base. This
|
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option only applies to Mach64 adapters and specifically excludes other
|
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adapters.
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[1m5.5. BusID[0m
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|||
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This option limits the adapters that can be associated with the
|
|||
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``Device'' section to the one with the specified PCI Bus ID. This
|
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specification excludes non-PCI adapters.
|
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|
|||
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[1m5.6. Clocks[0m
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|
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For the purpose of specifying a clock line in your xorg.conf, one of
|
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four different situations can occur, as follows.
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|
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Those configuring the driver's generic VGA support for a non-ATI
|
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adapter, can skip ahead to the [1m``Clocks for non-ATI adapters'' [22msection
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below. Those [4mnot[24m trying to configure the driver for a Mach64 adapter,
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can skip ahead to the [1m``Clocks for fixed clock generators on ATI[0m
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|||
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[1madapters'' [22msection below.
|
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|
|||
|
The very earliest Mach64 adapters use fixed (i.e. non-programmable)
|
|||
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clock generators. Very few of these (mostly prototypes) are known to
|
|||
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exist, but if you have one of these, you can also skip ahead to the
|
|||
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[1m``Clocks for fixed clock generators on ATI adapters'' [22msection below.
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|
|||
|
The two cases that are left deal with programmable clock generators,
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|||
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which are used on the great majority of Mach64 adapters.
|
|||
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|||
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If you are uncertain which situation applies to your adapter, you can
|
|||
|
run a clock probe with the command ``X -probeonly''.
|
|||
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|
|||
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|
|||
|
[1m5.6.1. Clocks for supported programmable clock generators[0m
|
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|
|||
|
At bootup, video BIOS initialisation programmes an initial set of
|
|||
|
frequencies. Two of these are reserved to allow the setting of modes
|
|||
|
that do not use a frequency from this initial set. One of these
|
|||
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reserved slots is used by the BIOS mode set routine, the other by the
|
|||
|
particular driver used (e.g. MS-Windows, AutoCAD, X, etc.). The clock
|
|||
|
numbers reserved in this way are dependent on the particular clock
|
|||
|
generator used by the adapter.
|
|||
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|
|||
|
The driver currently supports all programmable clock generators known
|
|||
|
to exist on Mach64 adapters. In this case, the driver will completely
|
|||
|
ignore any xorg.conf clock specification, and programme the clock
|
|||
|
generator as needed by the modes used during the X session.
|
|||
|
|
|||
|
|
|||
|
[1m5.6.2. Clocks for unsupported programmable clock generators[0m
|
|||
|
|
|||
|
This case is unlikely to occur, but is documented for the sake of
|
|||
|
completeness.
|
|||
|
|
|||
|
In this situation, the driver will probe the adapter for clock
|
|||
|
frequencies unless xorg.conf clocks are already specified. In either
|
|||
|
case, the driver will then attempt to normalise the clocks to one of
|
|||
|
the following specifications:
|
|||
|
|
|||
|
BIOS setting 1:
|
|||
|
|
|||
|
Clocks 0.000 110.000 126.000 135.000 50.350 56.640 63.000 72.000
|
|||
|
0.000 80.000 75.000 65.000 40.000 44.900 49.500 50.000
|
|||
|
0.000 55.000 63.000 67.500 25.180 28.320 31.500 36.000
|
|||
|
0.000 40.000 37.500 32.500 20.000 22.450 24.750 25.000
|
|||
|
|
|||
|
|
|||
|
|
|||
|
BIOS setting 2:
|
|||
|
|
|||
|
Clocks 0.000 110.000 126.000 135.000 25.180 28.320 31.500 36.000
|
|||
|
0.000 80.000 75.000 65.000 40.000 44.900 49.500 50.000
|
|||
|
0.000 55.000 63.000 67.500 12.590 14.160 15.750 18.000
|
|||
|
0.000 40.000 37.500 32.500 20.000 22.450 24.750 25.000
|
|||
|
|
|||
|
|
|||
|
|
|||
|
BIOS setting 3:
|
|||
|
|
|||
|
Clocks 0.000 0.000 0.000 0.000 25.180 28.320 0.000 0.000
|
|||
|
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
|
|||
|
0.000 0.000 0.000 0.000 12.590 14.160 0.000 0.000
|
|||
|
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
|
|||
|
|
|||
|
|
|||
|
If the driver matches the clocks to the third setting above, function-
|
|||
|
ality will be [4mextremely[24m limited (assuming the driver works at all).
|
|||
|
|
|||
|
|
|||
|
[1m5.6.3. Clocks for fixed clock generators on ATI adapters[0m
|
|||
|
|
|||
|
This section applies to all VGAWonder and Mach32 adapters, and to
|
|||
|
early Mach64 prototypes.
|
|||
|
|
|||
|
One of the following clocks specifications (or an initial subset
|
|||
|
thereof) can be used depending on what the adapter uses to generate
|
|||
|
dot clocks:
|
|||
|
|
|||
|
Crystals (VGA Wonder V3 and V4 adapters only):
|
|||
|
|
|||
|
Clocks 50.000 56.644 0.000 44.900 44.900 50.000 0.000 36.000
|
|||
|
25.000 28.322 0.000 22.450 22.450 25.000 0.000 18.000
|
|||
|
16.667 18.881 0.000 14.967 14.967 16.667 0.000 12.000
|
|||
|
12.500 14.161 0.000 11.225 11.225 12.500 0.000 9.000
|
|||
|
|
|||
|
|
|||
|
|
|||
|
ATI 18810 clock generator:
|
|||
|
|
|||
|
Clocks 30.240 32.000 37.500 39.000 42.954 48.771 0.000 36.000
|
|||
|
40.000 0.000 75.000 65.000 50.350 56.640 0.000 44.900
|
|||
|
15.120 16.000 18.750 19.500 21.477 24.386 0.000 18.000
|
|||
|
20.000 0.000 37.500 32.500 25.175 28.320 0.000 22.450
|
|||
|
10.080 10.667 12.500 13.000 14.318 16.257 0.000 12.000
|
|||
|
13.333 0.000 25.000 21.667 16.783 18.880 0.000 14.967
|
|||
|
7.560 8.000 9.375 9.750 10.739 12.193 0.000 9.000
|
|||
|
10.000 0.000 18.750 16.250 12.586 14.160 0.000 11.225
|
|||
|
|
|||
|
|
|||
|
|
|||
|
ATI 18811-0 and ATI 18812-0 clock generators:
|
|||
|
|
|||
|
Clocks 30.240 32.000 110.000 80.000 42.954 48.771 92.400 36.000
|
|||
|
39.910 44.900 75.000 65.000 50.350 56.640 0.000 44.900
|
|||
|
15.120 16.000 55.000 40.000 21.477 24.386 46.200 18.000
|
|||
|
19.955 22.450 37.500 32.500 25.175 28.320 0.000 22.450
|
|||
|
10.080 10.667 36.667 26.667 14.318 16.257 30.800 12.000
|
|||
|
13.303 14.967 25.000 21.667 16.783 18.880 0.000 14.967
|
|||
|
7.560 8.000 27.500 20.000 10.739 12.193 23.100 9.000
|
|||
|
9.978 11.225 18.750 16.250 12.588 14.160 0.000 11.225
|
|||
|
|
|||
|
|
|||
|
|
|||
|
ATI 18811-1 and ATI 18811-2 clock generators:
|
|||
|
|
|||
|
Clocks 135.000 32.000 110.000 80.000 100.000 126.000 92.400 36.000
|
|||
|
39.910 44.900 75.000 65.000 50.350 56.640 0.000 44.900
|
|||
|
67.500 16.000 55.000 40.000 50.000 63.000 46.200 18.000
|
|||
|
19.955 22.450 37.500 32.500 25.175 28.320 0.000 22.450
|
|||
|
45.000 10.667 36.667 26.667 33.333 42.000 30.800 12.000
|
|||
|
13.303 14.967 25.000 21.667 16.783 18.880 0.000 14.967
|
|||
|
33.750 8.000 27.500 20.000 25.000 31.500 23.100 9.000
|
|||
|
9.978 11.225 18.750 16.250 12.588 14.160 0.000 11.225
|
|||
|
|
|||
|
|
|||
|
|
|||
|
ICS 2494-AM clock generators (found on some Dell motherboards):
|
|||
|
|
|||
|
Clocks 75.000 77.500 80.000 90.000 25.175 28.322 31.500 36.000
|
|||
|
100.000 110.000 126.000 135.000 40.000 44.900 50.000 65.000
|
|||
|
37.500 38.750 40.000 45.000 12.588 14.161 15.750 18.000
|
|||
|
50.000 55.000 63.000 67.500 20.000 22.450 25.000 32.500
|
|||
|
25.000 25.833 26.667 30.000 8.392 9.441 10.500 12.000
|
|||
|
33.333 36.667 42.000 45.000 13.333 14.767 16.667 21.667
|
|||
|
18.750 19.375 20.000 22.500 6.294 7.081 7.875 9.000
|
|||
|
25.000 27.500 31.500 33.750 10.000 11.225 12.500 16.250
|
|||
|
|
|||
|
|
|||
|
VGAWonder VLB, VGA 1024 VLB, Mach32 and Mach64 owners should only
|
|||
|
specify up to the first 32 frequencies. Any more will be ignored.
|
|||
|
|
|||
|
Other clock generators that have been used on ATI adapters (which can
|
|||
|
all be said to be clones of one of the above) might generate non-zero
|
|||
|
frequencies for those that are zero above, or vice-versa.
|
|||
|
|
|||
|
The order of the clocks [4mis[24m very important, although the driver will
|
|||
|
reorder the specified clocks if it deems it appropriate to do so.
|
|||
|
Mach32 and Mach64 owners should note that this order is different than
|
|||
|
what they would use for previous accelerated servers.
|
|||
|
|
|||
|
|
|||
|
[1m5.6.4. Clocks for non-ATI adapters[0m
|
|||
|
|
|||
|
If no clocks are specified in the xorg.conf, the driver will probe for
|
|||
|
four clocks, the second of which will be assumed to be 28.322 MHz.
|
|||
|
The first clock will typically be 25.175 MHz, but there are
|
|||
|
exceptions. You can include up to four clock frequencies in your
|
|||
|
xorg.conf to specify the actual values used by the adapter. Any more
|
|||
|
will be ignored.
|
|||
|
|
|||
|
|
|||
|
[1m5.7. Option ``nopanel_display''[0m
|
|||
|
|
|||
|
This specification is only effective when the driver detects that the
|
|||
|
adapter's BIOS has initialised both the digital flat panel and CRT
|
|||
|
interfaces. In such a situation, the driver will normally drive both
|
|||
|
the panel and the CRT. This specification causes the driver to
|
|||
|
disable the digital flat panel and display the screen image on the CRT
|
|||
|
instead, which could potentially allow for larger physical resolutions
|
|||
|
than the panel can handle.
|
|||
|
|
|||
|
|
|||
|
[1m5.8. Option ``crt_display''[0m
|
|||
|
|
|||
|
This specification is only effective when the driver detects that the
|
|||
|
adapter's BIOS has initialised the digital flat panel interface, but
|
|||
|
has disabled the CRT interface. In such a situation the driver will
|
|||
|
normally drive only the panel. This specification causes the driver
|
|||
|
to instead display the same image on both the panel and the CRT.
|
|||
|
[1m5.9. Option ``noaccel''[0m
|
|||
|
|
|||
|
By default, the driver will accelerate draw operations if a Mach64
|
|||
|
CRTC is used to drive the display. As implemented in this driver,
|
|||
|
acceleration does not require a linear video memory aperture. This
|
|||
|
option disables this acceleration.
|
|||
|
|
|||
|
|
|||
|
[1m5.10. Option ``nolinear''[0m
|
|||
|
|
|||
|
By default, the driver will enable a linear video memory aperture for
|
|||
|
256-colour and higher depth modes if it is also using a Mach64
|
|||
|
accelerator CRTC or an integrated Mach64 graphics chip. This option
|
|||
|
disables this linear aperture.
|
|||
|
|
|||
|
On non-Intel platforms, the driver requires a linear aperture and, so,
|
|||
|
this option is ignored.
|
|||
|
|
|||
|
|
|||
|
[1m5.11. Option ``HWCursor'' and Option ``SWCursor''[0m
|
|||
|
|
|||
|
Option [4m``HWCursor''[24m, which is the default, specifies that hardware
|
|||
|
facilities are to be used to paint the mouse pointer on the screen.
|
|||
|
Option [4m``SWCursor''[24m specifies that the mouse pointer is to be drawn by
|
|||
|
software, which is much slower. If both options are specified, option
|
|||
|
[4m``SWCursor''[24m prevails. Currently, these options are only acted upon
|
|||
|
for 256-colour or higher depth modes, if a Mach64 accelerator CRTC, or
|
|||
|
a Mach64 integrated controller is being used. In all other
|
|||
|
situations, a software cursor will be used, regardless of what these
|
|||
|
options specify.
|
|||
|
|
|||
|
|
|||
|
[1m5.12. Option ``SilkenMouse''[0m
|
|||
|
|
|||
|
This option is only acted upon when a hardware cursor is being used.
|
|||
|
It specifies that the cursor's position on the screen is to be updated
|
|||
|
as quickly as possible when the mouse is moved. This is the default
|
|||
|
behaviour. If this option is negated, the cursor may lag the mouse
|
|||
|
when the X server is very busy.
|
|||
|
|
|||
|
|
|||
|
[1m5.13. Option ``shadowfb''[0m
|
|||
|
|
|||
|
If this option is enabled, the driver will cause the CPU to do each
|
|||
|
drawing operation first into a shadow frame buffer in system virtual
|
|||
|
memory and then copy the result into video memory. If this option is
|
|||
|
not active, the CPU will draw directly into video memory. Enabling
|
|||
|
this option is beneficial for those systems where reading from video
|
|||
|
memory is, on average, slower than the corresponding read/modify/write
|
|||
|
operation in system virtual memory. This is normally the case for PCI
|
|||
|
or AGP adapters, and, so, this option is enabled by default. For
|
|||
|
other bus types, the default behaviour is to disable this option.
|
|||
|
|
|||
|
Note that, due to various limitations, this option is forcibly
|
|||
|
disabled when a linear video memory aperture is not enabled, when the
|
|||
|
frame buffer depth is less than 8, or when acceleration is used.
|
|||
|
|
|||
|
|
|||
|
[1m5.14. Option ``dpms''[0m
|
|||
|
|
|||
|
This option enables the driver's support for VESA's Display Power
|
|||
|
Management Specification.
|
|||
|
|
|||
|
|
|||
|
|
|||
|
[1m5.15. Option ``backingstore''[0m
|
|||
|
|
|||
|
This is not specifically a driver option. It is used to enable the
|
|||
|
server's support for backing store, a mechanism by which pixel data
|
|||
|
for occluded window regions is remembered by the server thereby
|
|||
|
alleviating the need to send expose events to X clients when the data
|
|||
|
needs to be redisplayed.
|
|||
|
|
|||
|
|
|||
|
[1m5.16. MemBase address[0m
|
|||
|
|
|||
|
This specification is only effective for non-PCI Mach64 adapters, and
|
|||
|
is used to override the CPU address at which the adapter will map its
|
|||
|
video memory. Normally, for non-PCI adapters, this address is set by
|
|||
|
a DOS install utility provided with the adapter. The MemBase option
|
|||
|
can also be used to enable the linear aperture in those cases where
|
|||
|
ATI's utility was not, or can not be, used.
|
|||
|
|
|||
|
For PCI and AGP adapters, this address is determined at system bootup
|
|||
|
according to the PCI Plug'n'Play specification which arbitrates the
|
|||
|
resource requirements of most devices in the system. This means the
|
|||
|
driver can not easily change the linear aperture address.
|
|||
|
|
|||
|
|
|||
|
[1m5.17. Option ``ReferenceClock'' ``frequency''[0m
|
|||
|
|
|||
|
This option is only applicable to non-Intel platforms, where an
|
|||
|
adapter BIOS is not available to the driver. The option specifies the
|
|||
|
reference frequency used by the adapter's clock generator. The
|
|||
|
default is 14.318 MHz, and other typical values are 28.636, or 29.5
|
|||
|
MHz.
|
|||
|
|
|||
|
|
|||
|
[1m5.18. ClockChip ``name''[0m
|
|||
|
|
|||
|
This option is only applicable to non-Intel platforms, where an
|
|||
|
adapter BIOS is not available to the driver, and the driver cannot
|
|||
|
reliably determine whether the clock generator the adapter uses is a
|
|||
|
variant of an ATI 18818 (a.k.a. ICS 2595) or an unsupported clock
|
|||
|
generator. The only values that are acted upon are [4m``ATI[24m [4m18818-0''[24m or
|
|||
|
[4m``ATI[24m [4m18818-1''[24m. From this specification, the driver derives a
|
|||
|
reference divider of 43 or 46 (respectively) for use in clock
|
|||
|
programming calculations. The driver's default behaviour, in this
|
|||
|
case, is to assume an unsupported clock generator, which means it will
|
|||
|
treat it as a fixed-frequency clock generator, as described under the
|
|||
|
heading [1m``Clocks for unsupported programmable clock generators''[0m
|
|||
|
above.
|
|||
|
|
|||
|
|
|||
|
[1m6. Video modes[0m
|
|||
|
|
|||
|
Mode timings can be derived from the information in X's doc
|
|||
|
subdirectory. However, it is no longer required to specify such
|
|||
|
timings in an xorg.conf's ``Monitor'' section(s), if only standard
|
|||
|
mode timings are to be used. The server automatically inserts VESA
|
|||
|
standard mode timings in every ``Monitor'' section, and these modes
|
|||
|
will be checked first for mode constraints (monitor sync tolerances,
|
|||
|
video memory size, etc.).
|
|||
|
|
|||
|
Furthermore, it is also no longer required to specify mode names in
|
|||
|
``Display'' subsections. Should no mode names be specified (or those
|
|||
|
specified do not yield a usable mode), the server will automatically
|
|||
|
select as a default resolution the largest usable mode, whether or not
|
|||
|
the chosen mode is specified in the corresponding ``Monitor'' section.
|
|||
|
|
|||
|
|
|||
|
For a digital flat panel, any sync tolerances should be removed from
|
|||
|
the corresponding ``Monitor'' section. The driver will automatically
|
|||
|
calculate these from the mode that is active on server entry. The
|
|||
|
driver also inserts timings for a mode called [4m"Native[24m [4mpanel[24m [4mmode"[24m that
|
|||
|
represents the panel's native resolution.
|
|||
|
|
|||
|
|
|||
|
[1m7. Known problems and limitations[0m
|
|||
|
|
|||
|
There are several known problems or limitations related to the ATI
|
|||
|
driver. They include:
|
|||
|
|
|||
|
|
|||
|
+o When using a Mach64's accelerator CRTC, the virtual resolution must
|
|||
|
be less than 8192 pixels wide. The VGA CRTC further limits the
|
|||
|
virtual resolution width to less than 4096 pixels, or to less than
|
|||
|
2048 pixels for adapters based on 18800-x's (with 256kB of memory)
|
|||
|
and on Mach64 integrated controllers. These are hardware limits
|
|||
|
that cannot be circumvented.
|
|||
|
|
|||
|
+o Virtual resolutions requiring more than 1MB of video memory (256kB
|
|||
|
in the monochrome case) are not supported by the VGA CRTC on
|
|||
|
88800GX and 88800CX adapters. This is a hardware limit that cannot
|
|||
|
be circumvented.
|
|||
|
|
|||
|
+o Due to hardware limitations, doublescanned modes are not supported
|
|||
|
by the accelerator CRTC in 88800GX, 88800CX, 264CT and 264ET
|
|||
|
adapters.
|
|||
|
|
|||
|
+o The ``VScan'' modeline parameter is only supported when using the
|
|||
|
VGA CRTC.
|
|||
|
|
|||
|
+o Interlaced modes are not supported on 18800-x and 28800-x adapters
|
|||
|
when using a virtual resolution that is 2048 pixels or wider. When
|
|||
|
using a 18800-x with 256kB of video memory in 256-colour modes,
|
|||
|
this limit is reduced to 1024. This is yet another hardware
|
|||
|
limitation that cannot be circumvented.
|
|||
|
|
|||
|
+o Video memory banking does not work in monochrome and 16-colour
|
|||
|
modes on 18800-x adapters. This appears to be another hardware
|
|||
|
limit, but this conclusion cannot be confirmed at this time. The
|
|||
|
driver's default behaviour in this case is to limit video memory to
|
|||
|
256kB.
|
|||
|
|
|||
|
+o Video memory corruption can still occur during mode switches on
|
|||
|
18800-x adapters. Symptoms of this problem include garbled fonts
|
|||
|
on return to text mode, and various effects (snow, dashed lines,
|
|||
|
etc) on initial entry into a graphics mode. In the first case, the
|
|||
|
workaround is to use some other means of restoring the text font.
|
|||
|
On Linux, this can be accomplished with the kbd or svgalib
|
|||
|
packages. In the second case, xrefresh(1) will usually clean up
|
|||
|
the image. No complete solution to this problem is currently
|
|||
|
known. It appears this corruption occurs due to either video
|
|||
|
memory bandwidth or RAMDAC limitations, and so the driver will
|
|||
|
limit mode clocks to 40MHz.
|
|||
|
|
|||
|
+o There is some controversy over what the maximum allowed clock
|
|||
|
frequency should be on 264xT and 3D Rage adapters. For now, clocks
|
|||
|
will, by default, be limited to 80MHz, 135MHz, 170MHz, 200MHz or
|
|||
|
230MHz, depending on the specific controller. This limit can only
|
|||
|
be increased (up to a driver-calculated absolute maximum) through
|
|||
|
the DACSpeed specification in xorg.conf. Be aware however that
|
|||
|
doing so is untested and might damage the adapter.
|
|||
|
|
|||
|
+o Except as in the previous items, clocks are limited to 80MHz on
|
|||
|
most adapters, although many are capable of higher frequencies.
|
|||
|
This will eventually be fixed in a future release.
|
|||
|
|
|||
|
+o The use of a laptop's hot-keys to switch displays while this driver
|
|||
|
is active can cause lockups and/or other woes, and is therefore not
|
|||
|
recommended. It is not currently possible to solve this problem.
|
|||
|
|
|||
|
|
|||
|
+o In situations where the driver is to simultaneously display on both
|
|||
|
a panel and a CRT, the same image will be seen on both. In
|
|||
|
particular, this means the CRT must be able to synchronise with the
|
|||
|
timings of the panel's native resolution. This is quite evident
|
|||
|
when the panel has ``odd-ball'' dimensions, such as 1400x1050, a
|
|||
|
resolution not commonly possible on CRTs or projection equipment.
|
|||
|
|
|||
|
Also, the display of independent images on the panel and CRT is not
|
|||
|
currently implemented, and might never be, pending resolution of
|
|||
|
the previous item.
|
|||
|
|
|||
|
|
|||
|
Support for the following will be added in a future release:
|
|||
|
|
|||
|
+o Mach32's accelerator CRTC. This support is the first step towards
|
|||
|
accelerated support for Mach32's, Mach8's, 8514/A's and other
|
|||
|
clones.
|
|||
|
|
|||
|
+o Colour depth greater than 8 on non-integrated controllers, where
|
|||
|
permitted by the hardware.
|
|||
|
|
|||
|
+o Mach32, Mach8 and 8514/A Draw Engines.
|
|||
|
|
|||
|
+o Hardware cursors where implemented by hardware. This has already
|
|||
|
been done for Mach64 integrated controllers.
|
|||
|
|
|||
|
+o TVOut, i.e. the ability to use a television screen as a monitor.
|
|||
|
|
|||
|
+o Motion Video, i.e. displaying an asynchronous data stream (TV
|
|||
|
signal, DVD, etc.) in a window or full-screen.
|
|||
|
|
|||
|
+o 3D operations.
|
|||
|
|
|||
|
[1m8. Reporting problems[0m
|
|||
|
|
|||
|
If you are experiencing problems that are not already recorded in this
|
|||
|
document, first ensure that you have the latest current release of
|
|||
|
this driver and the Xorg X server.. Check the server's log (usually
|
|||
|
found in /var/log/Xorg.0.log) and ftp://ftp.freedesktop.org/pub/Xorg
|
|||
|
if you are uncertain.
|
|||
|
|
|||
|
Secondly, please check Xorg's doc directory for additional
|
|||
|
information.
|
|||
|
|
|||
|
Thirdly, a scan through the comp.windows.x.i386unix and
|
|||
|
comp.os.linux.x newsgroups and the xorg mailing list using your
|
|||
|
favourite archiving service can also prove useful in resolving
|
|||
|
problems.
|
|||
|
|
|||
|
If you are still experiencing problems, you can send me [4mnon-HTMLised[0m
|
|||
|
e-mail at <tsi@xfree86.org>. Please be as specific as possible when
|
|||
|
describing the problem(s), and include an [4munedited[24m copy of the
|
|||
|
server's log and the xorg.conf file used.
|
|||
|
|
|||
|
|
|||
|
[1m9. Driver history[0m
|
|||
|
|
|||
|
The complete history of the driver is rather cloudy. The following is
|
|||
|
more than likely to be incomplete and inaccurate.
|
|||
|
Apparently, Per Lindqvist first got a driver working with an early ATI
|
|||
|
adapter under X386 1.1a. This original driver might have actually
|
|||
|
been based on a non-functional ATI driver written by Thomas Roell
|
|||
|
(currently of Xi Graphics).
|
|||
|
|
|||
|
Then Doug Evans added support for the ATI VGA Wonder XL, trying in the
|
|||
|
process to make the driver work with all other ATI adapters available
|
|||
|
at the time.
|
|||
|
|
|||
|
Rik Faith obtained the X11R4 driver from Doug Evans in the summer of
|
|||
|
1992 and ported the code to the X386 part of X11R5. This subsequently
|
|||
|
became part of XFree86.
|
|||
|
|
|||
|
I (Marc Aurele La France) took over development and maintenance of the
|
|||
|
driver in the fall of 1993 after Rik got rid of his VGA Wonder
|
|||
|
adapter.
|
|||
|
|
|||
|
|
|||
|
[1m10. Driver versions[0m
|
|||
|
|
|||
|
Due to the introduction of loadable drivers in XFree86 4.0, it has
|
|||
|
become necessary to track driver versions separately. Driver releases
|
|||
|
use the following version numbering scheme.
|
|||
|
|
|||
|
Version 1 of this driver is the one I inherited from Rik Faith. This
|
|||
|
is the version found in XFree86 2.0 and 2.1.
|
|||
|
|
|||
|
Version 2 is my first rewrite of this code which only ended up being a
|
|||
|
partially unsuccessful attempt at generalising the driver for all VGA
|
|||
|
Wonder, Mach32, and early Mach64 adapters. Various releases of this
|
|||
|
version of the driver can be found in XFree86 2.1.1, 3.1, 3.1.1 and
|
|||
|
3.1.2.
|
|||
|
|
|||
|
Version 3 represents my second rewrite (although a rather lame one as
|
|||
|
rewrites go). Into version 3, I introduced clock programming for
|
|||
|
Mach64 adapters and merged in the old ati_test debugging tool. This
|
|||
|
is the version found in XFree86 3.2, 3.3 and 3.3.1.
|
|||
|
|
|||
|
Version 4 is a rather major restructuring of version 3, which became
|
|||
|
larger than I could comfortably handle in one source file. This is
|
|||
|
the version found in XFree86 3.3.2, 3.3.3, 3.3.3.1, 3.3.3.2, 3.3.4,
|
|||
|
3.3.5 and 3.3.6.
|
|||
|
|
|||
|
Version 5 is an almost complete restructuring of version 4 to fit in
|
|||
|
the newer driver API of XFree86 4.0 and later.
|
|||
|
|
|||
|
The introduction of version 6 is a first swipe at porting the driver
|
|||
|
to non-Intel architectures.
|
|||
|
|
|||
|
|
|||
|
|