#############################################################
#                                                           #
#   Configuration file for the "SVGATextMode" program       #
#                                                           #
#############################################################
#
# Created by: Koen Gadeyne (kmg@barco.be)
#
# DISCLAIMER: <include standard disclaimer here>
#  in short: USE AT YOUR OWN RISK!!!
#  This program does some pretty meaty things to your VGA card, and
#  I am ABSOLUTELY sure that there are more bugs in it than in the
#  entire Linux kernel source tree (>8 Mb). So If you have a heart
#  condition: ask for someone else to test it for you. During testing
#  of this piece of sh!t, I got LOTS of surprises (and so did my
#  monitor), and there are many surprises left.
#  I happen to like surprises!
#
#
#
# NOTES:
#
# 0. Just for safety: use "savetextmode" to save your current textmode
#    before trying anything of this stuff! If you get it wrong, you can
#    always restore your screen with "textmode" (prepare to type that 
#    "blindly": you might need to!). And to be even safer: do your first
#    tests from the standard 80x25 mode, and do your "savetextmode" in
#    that mode. It is not al all a sure thing that savetextmode will
#    enable you to return your screen to its original condition.
#
#    Another option would be to start the X-Windows system before running
#    SVGATextMode. X ALSO saves your text mode, and so when your text mode
#    is screwed up, switching to X and back might restore the screen again
#    (except for the screen SIZE...)
#
# 2. Multiple "clocks" lines are allowed. They will ALL be used!
#
# 3. Note too that the MAXIMUM total screen size can be 32 Kbytes of data,
#    and since each char needs two bytes: MAX 16384 chars. (If you ask for
#    anything bigger, you will get an "out of memory" error from the kernel!)
#    160x100 is almost that big (imagine : 16000 chars on ONE screen ?!)
#    All of the 16384 chars you DON'T use for the ACTIVE part of the screen,
#    are used as a "scrollback buffer" by the kernel (SHIFT-PgUp/SHIFT_PgDn, 
#    remember?). So at 160x100, only 2 lines of scrollback remain...
#
# 4. You can use "vgaset" to tune timing parameters, just as in X-Windows.
#
# 5. WARNING!!!!!!!!!!!
#    Be absolutely sure that the CHIPSET is specified correctly! The code
#    does ABSOLUTELY NO PROBING AT ALL, and will joyfully program your ET4000
#    as an S3 chipset, and even pretend everything went OK. Don't ask me what
#    horrific effects THAT can have... I might include VGA-card checking later.
#
# 6. for unsupported cards, or supported cards with unsupported clock selection 
#    algorithms, use the "ClockProg <path>" statement. The external program
#    MUST take as (only) argument the desired frequency in kHz. If it doesn't, 
#    embed it in a script that converts the syntax, or change the program...
#    This will change in the future (XFREE3.1-style)
#
# 7. If anything goes wrong, and you suspect that the card may not be using the
#    clock you specified, then use "clockprobe" to find out what the REAL
#    clock at this moment is. If the screen is blank, you'll have to type it
#    blindly, redirecting output to a file, so you can check it later, when
#    you got the screen back (either with "textmode", selecting a working
#    text mode with SVGATextMode, or rebooting). 
#
#############################################################
#                                                           #
#   WARNING: Do NOT blindly copy clock values in this file. #
#            They are only an example! Use the REAL ones    #
#            from YOUR video card!                          #
#                                                           #
#############################################################

#Chipset "VGA"     # This is for a "generic" VGA card. It should work on ANY VGA card, but can only use the first 4 clocks
#Clocks  25.175 28.322 0 0


#ChipSet	"S3"
#Clocks   25.175  28.322  40.0  0.00  50.00  77.00  36.00  44.90  130.00  120.00  80.00  31.50  110.00  65.00  75.00  94.50
# For some S3 cards: pick one of the following clock chips (or RAMDAC's with integrated clock chip). 
#ClockChip "icd2061a"
#ClockChip "ics9161a"
#ClockChip "dcs2834"
#ClockChip "sc11412"
#ClockChip "s3gendac"
#ClockChip "s3_sdac"
#ClockChip "ti3025"
#ClockChip "ics2595"
#ClockChip "ics5300"
#ClockChip "ics5342"
#ClockChip "ch8391"

#Option "Legend"           /* Some S3-based Legend cards */
#Option "SPEA_Mercury"     /* ONLY for S3-964-based SPEA Mercury P64 */
#Option "Number_Nine"      /* Improves performance (memory clock) of #9GXE cards with Ti3025 RAMDAC */
                          

# for the really unsupported cards, or others using a special clock chip (but first try the "Clockchip" option !)
#ClockProg "/home/kmg/SVGATextMode/contrib/v7mercury/freq" 2


#ChipSet	"ET4000"
#Option "hibit_high"         # This option MUST be in your XF86Config file, too!!!
#Option ET4000_AltClockSel   # some VERY rare ET4000's need this for correct clock selection. See the appropriate README!
#Option "Legend"             # Sigma Legend ET4000 boards need this.
#Clocks 25.1  28.3  32.5  36  40  44.9  31.5  37.6  50  56.6  65  72  80  90  63  75 
#ClockChip "ics5341"         # some W32p cards use this GenDAC

#Chipset	"TVGA8900"
#Clocks 25.175 28.3 45 36 58 65 50 40     

#Chipset	"TVGA8900"    # this is for a 8900CL card, it has 16 clocks.
#Clocks 25.175 28.3 45 36 57 64 50 40 75 108 110 107 72 61 79 74

#Chipset	"WDC90C3x"
#Clocks 25.175 28.3 65 36 40 50 32 45 31.5 35.5 74.5 72 30 77 86 80 60
#Option swap_hibit  #Some WDC's need this, but most don't. This inverts clock selection bit 2 (=the third bit)

#Chipset	"WDC90C0x"
#clocks  25.19  28.32  22.63  22.69  25.16  28.31  22.64  23.59  44.93

#Chipset	"ATI"
# following 8 lines are for ATI 28800-5 with 1Mb RAM, and ATI 68830 15/16-bit HiColor DAC (according to SuperProbe)
#Clocks  30.27  31.91 109.96  79.82  42.73  48.72  91.97  37.81
#Clocks  39.70  44.66  75.00  64.93  50.27  56.37   0.00  44.66
#Clocks  15.13  15.96  54.95  32.78  21.37  24.30  46.09  17.99
#Clocks  19.87  22.33  37.49  32.45  25.14  28.18   0.00  22.35
#Clocks  10.08  10.71  36.69  26.59  14.25  16.38  32.17  12.30
#Clocks  13.25  15.07  24.99  21.63  16.77  18.78   0.00  14.90
#Clocks   7.60   7.98  27.47  19.96  10.77  12.15  22.99   9.05
#Clocks   9.93  11.17  18.74  16.22  12.57  14.10   0.00  11.17

#Chipset	"ATIMACH32"
#Clocks  100.00 126.00  92.40  36.00  50.35  56.64   0.00  44.90
#Clocks  135.00  32.00 110.00  80.00  39.91  44.90  75.00  65.00
#Clocks  50.00   63.00  46.20  18.00  25.17  28.32   0.00  22.45
#Clocks  67.50   16.00  55.00  40.00  19.96  22.45  37.50  32.50
 
#Chipset	"CLGD542x"
# NO clocks line required for Cirrus Chips.
#Option "SLOW_DRAM"    #use one of these options to set Cirrus DRAM speed.
#Option "MED_DRAM"     #The faster the better, but the more dangerous...
#Option "FAST_DRAM"
#Option "XFAST_DRAM"
#ClockChip "Cirrus"

#Chipset	"Video7"    # HeadLand technologies chips only. NOT Video7 S3, Cirrus or C&T based cards
#Clocks   25.175 28.322 30.000 32.514 34.000 36.000 38.000 40.000
         
# In addition to the clocks specified above, the same clocks divided by 2 are
# ALSO available on some VGA cards. (for as far as I know, that is a standard
# VGA feature...).
# Enable this ONLY when your card works for the "normal" clocks, and if you
# need it (e.g. for 50x15 modes). This is NOT guaranteed to work on all
# cards, and is useless on cards with a programmable clock chip.
# Cirrus cards seem not to like this feature!
#
#Option "ClockDiv2"


#############################################################################
#
# The "Terminals" line tells SVGATextMode which terminals to resize together
# with the screen. 
#
# THIS IS ONLY NEEDED FOR KERNELS < 1.3.3 !
#
# When NOT defined, SVGATextMode will try to resize all ACTIVE VT's. The
# only limitation is that it can only detect the first 16.
# If you have more than 16 VT's (63 possible!), or if the automatic resizing
# does not satisfy you, define a 'terminals' line. Only the terminals 
# defined in it will be resized. The rest will be left "untouched".
#
# The terminals line should (in most cases) contain all the terminal devices 
# that are affected by SVGATextMode resizing. Normally they are the ones you
# switch with ALT-F1...ALT-F8. 
# Just type the device name WITHOUT the "/dev/" prefix.
#
#Terminals tty6 tty5 tty4 tty3 tty2 tty1


#############################################################################
#
# The "ResetProg" line defines a program that will be called after
# SVGATextMode has succesfully finished its job. The primary use would be 
# to let some applications know what happened (i.e. send them an appropriate
# signal, or bluntly restart them), if they don't resize automatically 
# after SVGATextMode finishes. e.g. selection.
#
# It will be called with TWO arguments: the H and V size of the new text 
# mode. Example: SVGATextMode 100x37 will call
#
#      /home/root/some_script 100 37
# Your reset program NEED not use those two arguments, but it could be useful
# for some applications. 
#

#ResetProg /etc/STM_reset


#############################################################################
#
# The following lines are about automatic font loading:
#  - 'Option LoadFont' enables the automatic font loading.
#       If this line is commented out, no font loading will be done, 
#       independent of the presence of "FontProg", "FontPath" or "FontSelect"
#       lines.
#  - 'FontProg ...' tells SVGATextMode where to find the font loading program
#  - 'FontPath ...' will tell the font program where the fonts are located.
#       the defaults for these two last ones are set in SVGATextMode.c, 
#       and are as shown below in the commented lines (if these lines are
#       commented out, the default paths will be used).
#  - 'FontSelect ... ...' tells the font loading program what font to use
#       for which font character cell sizes.
#       I've pointed 4 different font sizes to the same font each time. This
#       is not a requirement, but it's convenient (not much fonts for 9-pixel
#       wide characters around, and the same goes for odd-sized font heights)
#

#Option LoadFont
FontProg "/usr/bin/setfont"
FontPath "/usr/lib/kbd/consolefonts"
FontSelect 8x16 9x16 8x15 9x15  "Cyr_a8x16"
FontSelect 8x14 9x14 8x13 9x13  "Cyr_a8x14"
FontSelect 8x12 9x12 8x11 9x11  "8x12alt.psf"
FontSelect 8x8  9x8  8x7  9x7   "Cyr_a8x8" 
FontSelect 8x32 9x32 8x31 9x31  "Cyr_a8x32" 

#############################################################################
#
# For those not sattisfied with the default cursor look: here's a way to change
# it. syntax is 'Cursor <start>-<stop>'. Cursor size is always relative to a
# 32-pixel high font! (see TextConfig.doc). So '0-31' will be scaled to '0-7'
# when selecting an 8-pixel font size.

#Cursor 0-31     # block cursor
#Cursor 28-31     # underline cursor: the default.

#############################################################################
#
# The lines shown here are the default built into SVGATextMode. Most monitors
# are capable of a lot more than that. Enable and change these to use the full 
# capabilities of your monitor.
# The syntax is similar to the one used in XF86Config.
#
# Changing these BEYOND what your monitor can handle, COULD result in damage
# to the monitor! See your monitor's user's manual for details.
#

#HorizSync 30-32
#VertRefresh 50-80


#############################################################################
#
# Optionally define the "default" mode, which will be called when SVGATextMode
# is started _without_ a mode definition string.
#

#DefaultMode "80x25x9"


#############################################################################
#
# The Maximum allowable pixel clock for text mode.
# Each chipset has it's own maximum, which had to be determined through 
# experimentation (not many manufacturers care to mention them in their data
# sheets). See the TextConfig manual file for details.
#

#DacSpeed 45


#############################################################################
#############################################################################
#
# Standard 80x25 text mode: this should ALWAYS work (i.e. no timing problems
# because of a too large pixel clock)
# If this works, then at least PART of the program works fine... 
#
"80x25"            25   640  680  776  800    400  412  414  449 font  8x16

#
# The following should work too, but at 25.0 instead of 25.175 MHz.
# it can be used to check if the "divide by 2" feature
# works for your VGA chip. If you have a 50 MHz dot clock at hand...
#
"80x25b"           25   640  680  776  800    400  412  414  449 font  8x16

#
# The next two modes can be used to check if the selection of 8- and 9-pixel
# wide character sizes work. Both modes look exactly the same to the monitor
# as the standard 80x25 modes. But if you watch closely, you'll see the spacing
# between characters is slightly larger for the 9x16 font than for the 8x16 font.
#
# ======> VERY IMPORTANT NOTE : <=======
# NOTE that the timing parameters are the same for both 8 and 9-pixel wide
# fonts (except for the clock)!!! Horizontal timings in VGA cards are
# specified in 8-bit wide CHARACTERS, not in PIXELS. Hence the restriction
# that horizontal timings should be a multiple of 8 (if they're not, they will be
# rounded down). Although the character width is 9 in the second case,
# horizontal timings are still in 8-bit characters. So both modes will result
# in 80 chars per line (640/8), but the VGA chip will count 8 pixels per
# character in the first case, and 9 in the second case. That means that the
# total pixel-count at the end of the video-line is (800/8)*8 in the first
# example, and (800/8)*9 in the second case !!! To achieve the same horizontal
# frequency of 31.5 kHz, the second mode needs a higher clock : 
#       (9/8)*25.175 MHz = 28.3 MHz
# and that happens to be the second standard VGA clock, which is available on
# ALL VGA cards. Now you know why they added it in the first place ;-)
#

"80x25x8"          25   640  680  776  800    400  412  414  449 font  8x16
"80x25x9"          28   640  680  776  800    400  412  414  449 font  9x16

#
# some more standard VGA modes 
#
"80x28"            28   640  680  776  800    400  412  414  449 font  9x14
"80x33"            28   640  680  776  800    400  412  414  449 font  9x12
"80x50"            28   640  680  776  800    400  412  414  449 font   9x8


#
# The other standard VGA modes (132-character wide).
# This SHOULD work on any card...
# (It was grabbed from a Trident card)
#
"132x43x8"         40  1056 1072 1232 1280    473  485  487  521 font  8x11
"132x43x9"         45  1056 1072 1232 1280    473  485  487  521 font  9x11

#
# using soome little changes, you can come up with a lot more modes:
#
"132x30x8"         40  1056 1072 1232 1280    480  485  487  521 font  8x16
"132x30x9"         45  1056 1072 1232 1280    480  485  487  521 font  9x16
"132x34x8"         40  1056 1072 1232 1280    476  485  487  521 font  8x14
"132x34x9"         45  1056 1072 1232 1280    476  485  487  521 font  9x14
"132x40x8"         40  1056 1072 1232 1280    480  485  487  521 font  8x12
"132x40x9"         45  1056 1072 1232 1280    480  485  487  521 font  9x12
"132x60x8"         40  1056 1072 1232 1280    480  485  487  521 font   8x8
"132x60x9"         45  1056 1072 1232 1280    480  485  487  521 font   9x8


#
# Slightly improved versions of the above: 12-pixel font instead of
# 11. Looks definitely better (when using a suitable font), and the
# relatively low refresh rate (55 HZ) is no problem for white-on-black text
# If you have a multisync monitor, you can increase the clock, resulting
# in a higher refresh.
#
"132x43x8_12"      40  1056 1072 1232 1280    516  529  531  568 font  8x12
"132x43x9_12"      45  1056 1072 1232 1280    516  529  531  568 font  9x12

###############################################################################
# It's time to try some more exotic (= non-standard) modes...
#
# This is my favourite for a 14" monitor. A bit more than the IMMENSELY
# BIG characters at 80x25, but still very readable. Most cards support 
# 132x43 as a standard mode as well, but that is rather "small print" 
# then. At 50 MHz, needs a 48 kHz monitor (VESA 800x600 @ 70 Hz standard).
# Low-end SVGA screens will need to lower the clock to 40 MHz (for 38 kHz
# @ 60 Hz) or even 36 MHz (for 35.5 kHz @ 50 Hz).
#
"100x37"           50   800  872  976 1040    600  632  638  670 font  8x16
"100x37x9"         56   800  872  976 1040    600  632  638  670 font  9x16

# If your monitor can take 70 kHz (!) and 110 Hz, this one could make for a
# VERY stable, eye-friendly resolution.
"100x37+"          72   800  848  952 1032    600  600  606  630 font  8x16

#
# If you can't handle 48 kHz, try this: It's only 38 kHz/55 Hz, but almost all 
# VGA cards should work with this. And cheapo monitors too.
#
"100x37_low"       40   800  864  968 1056    600  605  607  628 font  8x16

#
# This has the same frequencies as a standard VGA text mode (31.5 kHz/60 Hz)
#
"100x37_VGA"       36   800  864  968 1016    518  522  525  545 font  9x14

#
# This is an enhancement to the standard 132x43 resolution. It uses a 16-pixel 
# font height instead of just 8. In combination with an appropriate font, this 
# is NOT bad at all.
#
"132x43_16"        65  1056 1096 1216 1336    688  688  694  714 font  8x16

#
# If you need BIG letters, try this one. You have to have a 32-pixel high font
# file somewhere (it is NOT included in the "keytbls" package in e.g. Slackware)
# Such a font is included with this package in the "setfont" directory.
# This needs a 49kHz/96Hz screen.
"50x15"            25   400  424  488  512    480  481  482  512 font  8x32

#
# If your monitor cannot handle that, use a 18 MHz clock. But that needs the
# "divide-by-two" feature (which should work on all VGA cards), dividing the
# (almost standard) 36 MHz clock down to 18 MHz, yielding 35kHz/68Hz, which
# should work on almost any screen, even the cheapest.
"50x15_low"        18   400  424  488  512    480  481  482  512 font  8x32

# The next one should work on ALL VGA monitors. 
# But only on cards that can divide their clocks by 2...
# It has standard VGA 31.25 kHz / 60 Hz timings
"50x15_VGA"        16   400  456  488  512    480  481  482  512 font  8x32

###############################################################################
# Some VESA compliant very-high resolution modes. Don't try this on Trident 
# or Cirrus cards. S3's can handle it, although you might notice some garbage
# while scrolling. This should be of no concern. I can live with that. ET4000's
# REALLY show off on these. Epensive cards too, but that's what you paid for.
# These modes have the same timings as a VESA 1024x768 mode at 70 Hz under
# X-windows. If you happen to own a single frequency monitor at 56 kHz, this
# is your ticket to paradise!
#
"v132x43"          75  1056 1096 1248 1336    774  783  784  800 font  8x18
"v132x48"          75  1056 1096 1248 1336    768  783  784  800 font  8x16
"v132x55"          75  1056 1096 1248 1336    770  783  784  800 font  8x14
"v132x60"          75  1056 1096 1248 1336    780  783  784  800 font  8x13
"v132x64"          75  1056 1096 1248 1336    768  783  784  800 font  8x12
"v132x70"          75  1056 1096 1248 1336    770  783  784  800 font  8x11
#
# On cards that are JUST not fast enough for the modes above, try the
# ones below. They use 9-pixel wide fonts, and the SAME clocks.
# But they work BETTER (see doc/PROBLEMS for a description of WHY:
# the chapter on "character bandwidth").
#
"v116x43"          75   928  976 1112 1192    774  783  784  800 font  9x18
"v116x48"          75   928  976 1112 1192    768  783  784  800 font  9x16
"v116x55"          75   928  976 1112 1192    770  783  784  800 font  9x14
"v116x60"          75   928  976 1112 1192    780  783  784  800 font  9x13
"v116x64"          75   928  976 1112 1192    768  783  784  800 font  9x12
"v116x70"          75   928  976 1112 1192    770  783  784  800 font  9x11

#
# For as far as I know, of all the "cheap" cards, only ET4000 can handle clocks
# this big... But be warned: This program does NOT (yet) take the safe limits
# for each card into account. An ET4000 is spec'ced to MAX 86 MHZ. Which is
# the limit for XFREE3. I don't see why 90 MHZ (4 above spec) would do any 
# damage, but you never know. Worst case, it just won't work properly.
# But WHAT A RESULT!!! Once you've seen this, you're hooked!
# You will need at least a 17" screen for the 160 char wide modes!
# (except if you have 20/10 vision...)
#
"ET132x66"         90  1056 1088 1240 1336    800  820  830  850 font  8x12
"ET160x100"        90  1280 1312 1480 1560    800  820  830  850 font   8x8
"ET160x66"         90  1280 1312 1480 1560    800  820  830  850 font  8x12
"ET132x43"         90  1056 1096 1216 1336    688  688  694  714 font  8x16

#
# If you want to get a taste of a 160-wide mode, try this one. It runs on 
# standard VGA frequencies, so any monitor should at least sync on it.
#
"160x60"           49  1280 1312 1480 1592    480  489  491  521 font   8x8
"160x60x9"         56  1280 1312 1480 1592    480  489  491  521 font   9x8

#
# Who says exagerating isn't fun ? 
# Can your monitor handle this? If you are afraid of damaging it: DON'T TRY THIS!
#
"80x25_160HZ"      56   640  680  776  800    400  412  414  449 font  8x16

#
# A little more moderate, but useful: high-refresh 80x25.
#
"80x25_100Hz"      36   640  680  776  800    400  412  414  449 font  8x16

#
# Bigger is better...
#
"180x80"           75  1440 1536 1636 1816    640  648  654  670 font   9x8

#
# For those really high-frequency fixed-frequency screens,
# 
# here's a few text modes that should run on 1280x1024 @ 70 Hz monitors:
# (it's 74.4 kHz / 70 Hz)
"H100x30"          75   800  832  936 1008    960 1000 1016 1064 font  8x32
"H80x30"           65   640  672  744  776    960 1000 1016 1064 font  9x32
"H80x60"           65   640  672  744  776    960 1000 1016 1064 font  9x16


###############################################################################
#
# Following are some user-contributed text modes.
# If they don't work: complain to the respective authors, not me ;-)
#
###############################################################################
# User contributed modes: The Standard Ones
# These modes are more or less "standard" in that they should work on standard (low-end)
# (S)VGA screens. Some of them are grabbed from a DOS (BIOS) text mode.
#
# Russell Marks (mr216@greenwich.ac.uk)
"80x60"            28   640  680  776  800    480  489  491  521 font   9x8
"80x30"            28   640  680  776  800    480  489  491  521 font  9x16
"80x40"            28   640  680  776  800    480  489  491  521 font  9x12
#
# Alexander JOLK (p6mqt001@cicrp.jussieu.fr)
# modes grabbed from Trident card
"132x30x8"         40  1056 1072 1232 1280    480  489  491  521 font  8x16
"132x30x9"         45  1056 1072 1232 1280    480  489  491  521 font  9x16
#
# Alessandro Rubini (rubini@ipvvis.UNIPV.IT)
"80x50"            25   640  680  776  810    400  420  430  460 font   8x8
#
# Robert Schouwenburg <rodos@rodosworld.stack.urc.tue.nl>
"132x29"           45  1056 1072 1232 1280    464  485  487  521 font  9x16
#
# Jean-Louis Debert <jldebert@zen.dedal.fr.net>
"132x25"           40  1056 1080 1240 1272    400  412  414  449 font  8x16
"132x43_small"     40  1056 1080 1240 1272    387  408  410  449 font   8x9
#
# Albert Cahalan <adc@coe.neu.edu>
"80x43"            25   640  680  776  800    473  489  491  525 font  8x11
"116x60x8"         36   928  958 1098 1140    480  490  492  523 font   8x8
"116x48x8"         36   928  958 1098 1140    480  490  492  523 font  8x10
"116x43x8"         36   928  958 1098 1140    480  490  492  523 font  8x11
"116x40x8"         36   928  958 1098 1140    480  490  492  523 font  8x12
"116x60x9"         40   928  958 1098 1140    480  490  492  523 font   9x8
"116x48x9"         40   928  958 1098 1140    480  490  492  523 font  9x10
"116x43x9"         40   928  958 1098 1140    480  490  492  523 font  9x11
"116x40x9"         40   928  958 1098 1140    480  490  492  523 font  9x12
#
# "D.A.B. Niggemann" <dabn100@hermes.cam.ac.uk>
"132x44"           40  1056 1104 1240 1280    352  387  389  449 font   8x8
#
# Barak Pearlmutter <bap@scr.siemens.com>
# This mode seems to be very useful for notebooks
"80x32"            28   640  680  776  800    480  489  491  521 font  9x15


###############################################################################
# User contributed modes: The Special Ones
# These modes need a multisync monitor. Most will NOT work on "standard" SVGA screens
# Use the "-n" option to see if your monitor supports them
#
# Carsten Zimmermann (zimmermann@zimnet.hanse.de)
"132x43_hi"        50  1056 1104 1264 1320    344  387  389  449 font   8x8
"132x43_semihi"    45  1056 1104 1264 1320    344  387  389  449 font   8x8
"132x43_14"        50  1056 1096 1216 1336    688  688  694  714 font  8x14
"Z160x60"          58  1280 1312 1432 1560    480  489  491  521 font   8x8
#
# Alexander JOLK (p6mqt001@cicrp.jussieu.fr)
"100x30x8"         36   800  864  896 1016    480  481  483  500 font  8x16
"100x30x9"         40   800  840  872 1016    480  481  483  500 font  9x16
#
# Andy Beck (becka@hp817s.rz.uni-duesseldorf.de)
"A55x41"           25   440  464  536  560    328  339  341  380 font   8x8
"A55x33"           25   440  464  536  560    330  339  341  380 font  8x10
"A55x27"           25   440  464  536  560    324  339  341  380 font  8x12
"A55x23"           25   440  464  536  560    322  339  341  380 font  8x14
"A55x20"           25   440  464  536  560    320  339  341  380 font  8x16
#
"A65x48"           25   520  544  616  640    384  399  401  440 font   8x8
"A65x38"           25   520  544  616  640    380  399  401  440 font  8x10
"A65x32"           25   520  544  616  640    384  399  401  440 font  8x12
"A65x27"           25   520  544  616  640    378  399  401  440 font  8x14
"A65x24"           25   520  544  616  640    384  399  401  440 font  8x16
#
"A80x60"           40   640  664  736  824    480  489  491  530 font   8x8
"A80x48"           40   640  664  736  824    480  489  491  530 font  8x10
"A80x40"           40   640  664  736  824    480  489  491  530 font  8x12
"A80x34"           40   640  664  736  824    476  489  491  530 font  8x14
"A80x30"           40   640  664  736  824    480  489  491  530 font  8x16
#
"A100x75"          70   800  856  936 1096    600  637  643  666 font   8x8
"A100x60"          70   800  856  936 1096    600  637  643  666 font  8x10
"A100x50"          70   800  856  936 1096    600  637  643  666 font  8x12
"A100x43"          70   800  856  936 1096    602  637  643  666 font  8x14
"A100x37"          70   800  856  936 1096    592  637  643  666 font  8x16
#
"A104x78"          70   832  888  968 1128    624  661  667  690 font   8x8
"A104x62"          70   832  888  968 1128    620  661  667  690 font  8x10
"A104x52"          70   832  888  968 1128    624  661  667  690 font  8x12
"A104x44"          70   832  888  968 1128    616  661  667  690 font  8x14
"A104x39"          70   832  888  968 1128    624  661  667  690 font  8x16
#
"A128x96"          70  1024 1072 1152 1360    768  784  787  810 font   8x8
"A128x77"          70  1024 1072 1152 1360    770  784  787  810 font  8x10
"A128x64"          70  1024 1072 1152 1360    768  784  787  810 font  8x12
"A128x54"          70  1024 1072 1152 1360    756  784  787  810 font  8x14
"A128x48"          70  1024 1072 1152 1360    768  784  787  810 font  8x16
#
"A144x109"         70  1152 1208 1280 1536    872  886  889  912 font   8x8
"A144x87"          70  1152 1208 1280 1536    870  886  889  912 font  8x10
"A144x72"          70  1152 1208 1280 1536    864  886  889  912 font  8x12
"A144x62"          70  1152 1208 1280 1536    868  886  889  912 font  8x14
"A144x54"          70  1152 1208 1280 1536    864  886  889  912 font  8x16
#
"A150x108"         70  1200 1248 1312 1560    864  916  919  942 font   8x8
"A150x86"          70  1200 1248 1312 1560    860  916  919  942 font  8x10
"A150x72"          70  1200 1248 1312 1560    864  916  919  942 font  8x12
"A150x61"          70  1200 1248 1312 1560    854  916  919  942 font  8x14
"A150x54"          70  1200 1248 1312 1560    864  916  919  942 font  8x16
#
"A150x89"          70  1200 1248 1312 1560    890  916  919  942 font  8x10
"A150x74"          70  1200 1248 1312 1560    888  916  919  942 font  8x12
"A150x63"          70  1200 1248 1312 1560    882  916  919  942 font  8x14
"A150x55"          70  1200 1248 1312 1560    880  916  919  942 font  8x16
#
# Ulrich Dessauer (ud@nitmar.muc.de)
"90x30"            40   720  790  840  930    420  425  433  455 font  8x14
#
# John Bashaw (paladin@netcom.com)
"110x50_hi"        56   880  960 1160 1200    700  702  712  735 font  8x14
#
# Be carefull with these! They use EXTREMELY high clocks (for text mode)
# Delman Lee (delman@mipg.upenn.edu)
"160x64"          110  1280 1304 1480 1696   1024 1024 1027 1061 font  8x16
"160x32"          110  1280 1304 1480 1696   1024 1024 1027 1061 font  8x32
"160x30"          108  1280 1304 1480 1696    960  986  989 1023 font  8x32
"108x60"           80   864  964 1104 1256    960  986  989 1023 font  8x16
  
 
###############################################################################
# CUSTOM modes: put your own modes (new or adapted from above) here.
#               You don't HAVE to rename them, since SVGATextMode will
#               take the LAST line it finds with the same name.
#
