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发信人: xlib.bbs@etc3.et.ntit (悟 .....), 信区: Linux
哇! 工程浩大 !!!!
注意了
First specify a mouse protocol type. Choose one from the following list:
1. Microsoft compatible (2-button protocol)
2. Mouse Systems (3-button protocol)
3. Bus Mouse
4. PS/2 Mouse
5. Logitech Mouse (old type, Logitech protocol)
6. Logitech MouseMan (Microsoft compatible)
7. MM Series
8. MM HitTablet
If you have a two-button mouse, it is most likely of type 1, and if you have
a three-button mouse, it can probably support both protocol 1 and 2. There are
two main varieties of the latter type: mice with a switch to select the
protocol, and mice that default to 1 and require a button to be held at
boot-time to select protocol 2. Some mice can be convinced to do 2 by sending
a special sequence to the serial port.
Enter a protocol number: (看你MOUSE的STYLE)我设 2
ou have selected a three-button mouse protocol. It is recommended that you
do not enable Emulate3Buttons, unless the third button doesn't work.
Please answer the following question with either 'y' or 'n'.
Do you want to enable Emulate3Buttons?n
Now give the full device name that the mouse is connected to, for example
/dev/tty00. Just pressing enter will use the default, /dev/mouse.
Mouse device:(mouse 接在COM1打)/dev/mouse
You must indicate the horizontal sync range of your monitor. You can either
select one of the predefined ranges below that correspond to industry-
standard monitor types, or give a specific range.
hsync in kHz; monitor type with characteristic modes
1 31.5; Standard VGA, 640x480 @ 60 Hz
2 31.5 - 35.1; Super VGA, 800x600 @ 56 Hz
3 31.5, 35.5; 8514 Compatible, 1024x768 @ 87 Hz interlaced (no 800x600)
4 31.5, 35.15, 35.5; Super VGA, 1024x768 @ 87 Hz interlaced, 800x600 @ 56 Hz
5 31.5 - 37.9; Extended Super VGA, 800x600 @ 60 Hz, 640x480 @ 72 Hz
6 31.5 - 48.5; Non-Interlaced SVGA, 1024x768 @ 60 Hz, 800x600 @ 72 Hz
7 31.5 - 57.0; High Frequency SVGA, 1024x768 @ 70 Hz
8 31.5 - 64.3; Monitor that can do 1280x1024 @ 60 Hz
9 31.5 - 79.0; Monitor that can do 1280x1024 @ 74 Hz
10 Enter your own horizontal sync range
Enter your choice (1-10):(查你monitor规格之水平频宽)我设6
You must indicate the vertical sync range of your monitor. You can either
select one of the predefined ranges below that correspond to industry-
standard monitor types, or give a specific range. For interlaced modes,
the number that counts is the high one (e.g. 87 Hz rather than 43 Hz).
1 50-70
2 50-90
3 50-100
4 40-150
5 Enter your own vertical sync range
Enter your choice:(查你monitor规格之垂直频宽)我设2
he strings are free-form, spaces are allowed.
Enter an identifier for your monitor definition:(空白就好了)
Enter the vendor name of your monitor:(空白就好了)
Enter the model name of your monitor: (空白就好了)
Now we must configure video card specific settings. The first thing is
which server to run. Refer to the manpages and other documentation. The
following servers are available (they may not all be installed on your system):
1 The XF86_Mono server. This a monochrome server that should work on any
VGA-compatible card, in 640x480 (more on some SVGA chipsets).
2 The XF86_VGA16 server. This is a 16-color VGA server that should work on
any VGA-compatible card.
3 The XF86_SVGA server. This is a 256 color SVGA server that supports a
a number of SVGA chipsets. It is accelerated on some Cirrus and WD
chipsets; it supports 16/32-bit color on certain Cirrus configurations.
4 The accelerated servers. These include XF86_S3, XF86_Mach32, XF86_Mach8,
XF86_8514, XF86_P9000, XF86_AGX, and XF86_W32.
These four server types correspond to the four different "Screen" sections in
XF86Config (vga2, vga16, svga, accel).
Which one of these four screen types do you intend to run by default (1-4)?
(看你的卡应设3)
The server to run is selected by changing the symbolic link 'X'. For example,
'rm /usr/X11R6/bin/X; ln -s /usr/X11R6/bin/XF86_SVGA /usr/X11R6/bin/X' selects
the SVGA server.
Please answer the following question with either 'y' or 'n'.
Do you want me to set the symbolic link?y (要用root login 才可)
Now you must give information about your video card. This will be used for
the "Device" section of your video card in XF86Config.
You must indicate how much video memory you have. It is probably a good
idea to use the same approximate amount as that detected by the server you
intend to use.
How much video memory do you have on your video card:
1 256K
2 512K
3 1024K
4 2048K
5 4096K
6 Other
Enter your choice:(ET 4000 上的RAM SIZE )我有1M 选3
You must now enter a few identification/description strings, namely an
identifier, a vendor name, and a model name. Just pressing enter will fill
in default names.
The strings are free-form, spaces are allowed.
Enter an identifier for your video card definition:(空白就好)
You can simply press enter here if you have a generic card, or want to
describe your card with one string.
Enter the vendor name of your video card:(空白就好)
Enter the model (board) name of your video card:(空白就好)
More options and settings can be specified in the Device section. For most
configurations, a Clocks line is useful since it prevents the slow and nasty
sounding clock probing at server start-up. Probed clocks are displayed at
server startup, along with other server and hardware configuration info.
You can save this information in a file by running
'X -probeonly 2>output_file'. Be warned that clock probing is inherently
imprecise; some clocks may be slightly too high (varies per run).
Especially for accelerated servers, Ramdac and Dacspeed settings or special
options may be required in the Device section.
At this point I can run X -probeonly, and try to extract the clock information
from the output. It is recommended that you do this yourself and add a clocks
line (note that the list of clocks may be split over multiple Clocks lines) to
your Device section afterwards. Be aware that a clocks line is not
appropriate for drivers that have a fixed set of clocks and don't probe by
default (e.g. Cirrus). Also, for the P9000 server you must simply specify
clocks line that matches the modes you want to use. For the S3 server with
a programmable clock chip you need a 'ClockChip' line and no Clocks line.
You must be root to be able to run X -probeonly now.
Do you want me to run 'X -probeonly' now?(你可打n 否则啾啾啾!!高压的声音)
For each depth, a list of modes (resolutions) is defined. The default
resolution that the server will start-up with will be the first listed
mode that can be supported by the monitor and card.
Currently it is set to:
"640x480" "800x600" "1024x768" "1280x1024" for 8bpp
"640x480" "800x600" "1024x768" for 16bpp
"640x480" "800x600" for 32bpp
Note that 16bpp and 32bpp are only supported on a few configurations.
Modes that cannot be supported due to monitor or clock constraints will
be automatically skipped by the server.
1 Change the modes for 8pp (256 colors)
2 Change the modes for 16bpp (32K/64K colors)
3 Change the modes for 32bpp (24-bit color)
4 The modes are OK, continue.
Enter your choice:(我的ET4000卡一般的故选1)
Select modes from the following list:
1 "640x400"
2 "640x480"
3 "800x600"
4 "1024x768"
5 "1280x1024"
Please type the digits corresponding to the modes that you want to select.
For example, 432 selects "1024x768" "800x600" "640x480", with a
default mode of 1024x768.
Which modes?(我选4)
For each depth, a list of modes (resolutions) is defined. The default
resolution that the server will start-up with will be the first listed
mode that can be supported by the monitor and card.
Currently it is set to:
"1024x768" for 8bpp
"640x480" "800x600" "1024x768" for 16bpp
"640x480" "800x600" for 32bpp
Note that 16bpp and 32bpp are only supported on a few configurations.
Modes that cannot be supported due to monitor or clock constraints will
be automatically skipped by the server.
1 Change the modes for 8pp (256 colors)
2 Change the modes for 16bpp (32K/64K colors)
3 Change the modes for 32bpp (24-bit color)
4 The modes are OK, continue.
Enter your choice:(确定你设好了打4)
am going to write the XF86Config file now. Make sure you don't accidently
overwrite a previously configured one.
Do you want it written to the current directory as
'XF86Config'?(一切都设好了打Y 回到 %)
%startx 或 openwin
ps . 若不成功一定有地方设错了再来一次
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