15.4" Screen / 1440x900 Resolution Enough?

Is the 15.4" screen, run on 1440x900 resolution, on the MacBook Pro enough space to run Logic Pro 7 more than comfortably?

That may go up with the next version of Logic, which is rumored to be a completely different window layout.
I know, all speculation at this point...

Similar Messages

Msi gx623 1440x900 resolution on windows 7

Hello, i know that this laptop can run in 1440x900 resolution screen mode
but my windows 7 runs only on 1280x800.
it's quit a little resolution for me, because i work with coreldraw and some images just doesn't fit at full screen.
i know that that this laptop can perform this resolution, as it even written in manual.
looking forward for answer. thank you

Quote from: modder on 12-August-10, 11:31:50
Updating the video driver wont help, because the res depends on the monitor driver and that is included in win7. I'm 99.5% sure you have a 1280x800 res screen. You can upgrade the screen, if you're interested I can give you a great link to a guide.
They sell around $100 on ebay.
This is why I want him to look at the box. The GX623 can come with either the WXGA or WXGA+ panel. What it comes with may be due to market and the there is a price difference.
Pwnd,
If the screenshot is from the website where you purchased it and what you got was different, contact the reseller.

1440x900 resolution missing in Bootcamp (MBPr+Retina)

I just installed Windows 8 RP on my new MacBook Pro with Retina display and realized that the 1440x900 resolution option is completely missing from Windows (and games).
I've tried installed NVIDIA's latest 650M beta drivers (304.79), but they refuse to install. The frustrating thing about this is that 1440x900 is the most natural resolution for many games on the Retina display (since 2880x1800 either runs poorly, or reduces the UI of many games to unreadably small sizes). Intermediary resolutions cause ugly blurry jagged edges due to scaling.
Any ideas?

Games are only installed on Home editions by default, so you have to install them
Games = go to control panel > Programs and Features
Then look on left of list of apps and there is a link 'Turn windows features on and off' click that then in the dialog that comes up tick games then 'ok' then games will be installed.
there are also plenty of games int the store... just click windows/command key then click on blue store icon (top left)

I am purchasing a laptop with a 4k screen (3200x1800) resolution, will Lightroom work at these levels? what is the highest resolution LR will support?

I am purchasing a laptop with a 4k screen (3200x1800) resolution, will Lightroom work at these levels? what is the highest resolution LR will support?

As Rob has pointed out there is no maximum resolution that LR supports, but performance decreases as resolution increases. I'm using an i7-860 quad core system with a 1920 x1080 (2.1 Megapixel) monitor and LR runs well. A 3200 x1800 (5.8 Megapixel) monitor will require ~2.75 x more processing to render the real-time loupe image in the Develop module. Some people have reported sluggish screen updating when making adjustments in the Develop module with even lower resolution monitors such as 2560x1440. Here's a post that discusses the issue:
The Achilles heel of 4k monitors on the Mac Pro?

My ipod screen shows not enough storage message but it will not let me close or go to settings. How do I get this message off to get to my settings to get to the icloud setting?

My ipod screen shows "not enough storage" message but will not let me click on the cancel or settings button. How do I fix this?

Try:
- Reset the iOS device. Nothing will be lost
Reset iOS device: Hold down the On/Off button and the Home button at the same time for at
least ten seconds, until the Apple logo appears.
- Restore from backup. See:
iOS: How to back up
- Restore to factory settings/new iOS device.

5G vs iPod Classic Screen Size / Resolution

Has there been in change in the screen size, resolution or # of colors between the 5G iPod (not the 5.5G) and the iPod Classic? I think there may have been a screen size change at least from the 5G to the 5.5G, but I'm not sure.
Tony

No, the screen size did not change at all from 5th Gen to 5.5 Gen. What they changed was to go with a brighter screen that used less power.
I have not seen any indication by Apple's marketing weasels on the web pages going on about a better, bigger, brighter, more colorful, etc. screen, so I am assuming that is uses the same screen as the 5.5Gen iPods.
I figure if it had more colors or something like that, that would be one of the new and improved features they would be going on about.
Patrick

Available screen size/resolution

How do I determine the screen size/resolution that the user will be using order for my application to adapt its page size?

We've embedded E-commerce into the SAP portal and have changed the top header bar not to display to save some vertical screen real estate.
You got to be careful if you are integrating E-Commerce with SAP Portal, just defining an URL iView is OK but not sufficient. To fully integrate to Portal use the following
[Note 1021959 - Portal settings for ISA iViews|https://service.sap.com/sap/support/notes/1021959]
As for the frame structure of the application, you can see the details of the frame design in this document [SAP E-Commerce 5.0 - Examples and Tutorials (Dev./Ext.) |http://service.sap.com/~sapdownload/011000358700006120622006E/ISA50_DevAndExtTuts_v1_0.PDF]
Put a good resource who can understand the JSP and CSS (stylesheets) and they should be able to do a fair job. I use Firefox browser with the plug-in Firebug to quickly find the active style and the corresponding stylesheet.
Easwar Ram
http://www.parxlns.com

Screen Shot Resolution

I took screen shots of several emails, imported the screen shots into a slide show in iPhoto, then exported the slide show to iDVD.
When viewing the DVD on TV, you can barely read the emails.
How can I improve the screen shot resolutions? Should I import the screen shot into PhotoShop and adust resolution to 720 x 540 for NTSC?
iMac G5 Mac OS X (10.3.9)

Thanks for the response.
I increased the size of the text in the e-mails, then resized the emails to 640x480 and took a screen shot, which I converted in PhotoShop from TIF to JPG. I then re-imported the emails into iPhoto and exported the slide show to iDVD.
When I play the DVD on my TV, I can read the text fine, but I neglected to leave space around the e-mail, so some of the sides are cut off on the TV screen.

Frozen locked screen stating Not Enough Storage

Ipod touch is on a locked screen stating Not Enough Storage. It cannot be shut off and is not acknowledged when I attach to computer

First, try a system reset. It cures many ills and it's quick, easy and harmless...
Hold down the on/off switch and the Home button simultaneously until you see the Apple logo. Ignore the "Slide to power off" text if it appears. You will not lose any apps, data, music, movies, settings, etc.
If the Reset doesn't work, try a Restore. Note that it's nowhere near as quick as a Reset. It could take well over an hour! Connect via cable to the computer that you use for sync. From iTunes, select the iPad/iPod and then select the Summary tab. Follow directions for Restore and be sure to say "yes" to the backup. You will be warned that all data (apps, music, movies, etc.) will be erased but, as the Restore finishes, you will be asked if you wish the contents of the backup to be copied to the iPad/iPod. Again, say "yes."
At the end of the basic Restore, you will be asked if you wish to sync the iPad/iPod. As before, say "yes." Note that that sync selection will disappear and the Restore will end if you do not respond within a reasonable time. If that happens, only the apps that are part of the IOS will appear on your device. Corrective action is simple - choose manual "Sync" from the bottom right of iTunes.
If you're unable to do the Restore, go into Recovery Mode per the instructions here.

Cannot use 1440x900 resolution with fglrx no matter what I do

I have used hwd and got a configured xorg.conf and I added "1440x900" to the modes list but it does not work. I have even copied over my working xorg.conf from ubuntu and sabayon and it works for every resolution EXCEPT 1440x900. I seems like everything think I do to add 1440x900 it just ignores it. The xorg.conf below is from hwd and I added the "1440x900" but in GNOME I can only use 1024x768 , 800x600 and 640x480. What am I doing wrong?
Section "ServerLayout"
Identifier "Xorg Configured"
Screen 0 "Screen0" 0 0
InputDevice "Keyboard0" "CoreKeyboard"
# PS/2 Mouse not detected
# Serial Mouse not detected
InputDevice "USB Mouse" "CorePointer"
EndSection
Section "ServerFlags"
Option "AllowMouseOpenFail" "true"
EndSection
Section "Files"
RgbPath "/usr/share/X11/rgb"
ModulePath "/usr/lib/xorg/modules"
FontPath "/usr/share/fonts/misc:unscaled"
FontPath "/usr/share/fonts/misc"
FontPath "/usr/share/fonts/75dpi:unscaled"
FontPath "/usr/share/fonts/75dpi"
FontPath "/usr/share/fonts/100dpi:unscaled"
FontPath "/usr/share/fonts/100dpi"
FontPath "/usr/share/fonts/PEX"
# Additional fonts: Locale, Gimp, TTF...
FontPath "/usr/share/fonts/cyrillic"
# FontPath "/usr/share/lib/X11/fonts/latin2/75dpi"
# FontPath "/usr/share/lib/X11/fonts/latin2/100dpi"
# True type and type1 fonts are also handled via xftlib, see /etc/X11/XftConfig!
FontPath "/usr/share/fonts/Type1"
FontPath "/usr/share/fonts/ttf/western"
FontPath "/usr/share/fonts/ttf/decoratives"
FontPath "/usr/share/fonts/truetype"
FontPath "/usr/share/fonts/truetype/openoffice"
FontPath "/usr/share/fonts/truetype/ttf-bitstream-vera"
FontPath "/usr/share/fonts/latex-ttf-fonts"
FontPath "/usr/share/fonts/defoma/CID"
FontPath "/usr/share/fonts/defoma/TrueType"
EndSection
Section "Module"
Load "ddc" # ddc probing of monitor
Load "dbe"
Load "dri"
Load "extmod"
Load "glx"
Load "bitmap" # bitmap-fonts
Load "type1"
Load "freetype"
Load "record"
EndSection
Section "InputDevice"
Identifier "Keyboard0"
Driver "keyboard"
Option "CoreKeyboard"
Option "XkbRules" "xorg"
Option "XkbModel" "pc105"
Option "XkbLayout" ""
Option "XkbVariant" ""
EndSection
Section "InputDevice"
Identifier "Serial Mouse"
Driver "mouse"
Option "Protocol" "Microsoft"
Option "Device" "/dev/ttyS0"
Option "Emulate3Buttons" "true"
Option "Emulate3Timeout" "70"
Option "SendCoreEvents" "true"
EndSection
Section "InputDevice"
Identifier "PS/2 Mouse"
Driver "mouse"
Option "Protocol" "auto"
Option "ZAxisMapping" "4 5"
Option "Device" "/dev/psaux"
Option "Emulate3Buttons" "true"
Option "Emulate3Timeout" "70"
Option "SendCoreEvents" "true"
EndSection
Section "InputDevice"
Identifier "USB Mouse"
Driver "mouse"
Option "Device" "/dev/input/mice"
Option "SendCoreEvents" "true"
Option "Protocol" "IMPS/2"
Option "ZAxisMapping" "4 5"
Option "Buttons" "5"
EndSection
# Auto-generated by Archie mkxcfg
Section "Monitor"
Identifier "Monitor0"
Option "DPMS" "true"
# HorizSync 28.0 - 78.0 # Warning: This may fry very old Monitors
HorizSync 30 - 70 # Warning: This may fry old Monitors
VertRefresh 50 - 160 # Very conservative. May flicker.
# VertRefresh 50.0 - 62.0 # Extreme conservative. Will flicker. TFT default.
EndSection
# Auto-generated by Archie mkxcfg
Section "Device"
Identifier "Card0"
Driver "fglrx"
VendorName "All"
BoardName "All"
EndSection
Section "Screen"
Identifier "Screen0"
Device "Card0"
Monitor "Monitor0"
DefaultColorDepth 24
SubSection "Display"
Depth 1
Modes "1440x900" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Depth 4
Modes "1440x900" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Depth 8
Modes "1440x900" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Depth 15
Modes "1440x900" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Depth 16
Modes "1440x900" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Depth 24
Modes "1440x900" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Depth 32
Modes "1440x900" "1024x768" "800x600" "640x480"
EndSubSection
EndSection
Section "DRI"
Mode 0666
EndSection
Last edited by jae1227 (2007-08-13 02:14:47)

MrWeatherbee wrote:
If you are having issues with an ATI card as your xorg.conf shows (you also mentioned nvidia, so I'm covering my butt), you may want to see my posts and others in this thread:
http://bbs.archlinux.org/viewtopic.php?id=35753
Basically, it discusses that sync, refresh, and modes / modelines don't work very well with "fglrx" driver, at least in my experience. The simplest xorg.conf lines relative to your video card and monitor sections will likely work best. I had similar issues (and more) with trying to include very specific xorg.conf code for those sections, and I had to resort to leaving it close to the bare-bones setup created by aticong --initial to get everything to work properly.
I'm back to the radeon driver (for aiglx) now, so I can't do any testing for you. But hopefully the above info let's you know others have had similar issues.
I tried to do what you said. I ran xorgconfig again and then ran aticonfig --initial. I started up GDM and it did not work, well something worked but my monior said it could not display it. Now my guess is that it could have worked but the resolution was set too high on GDM and my monitor could not handal it. So I added the HorizSync & VertRefresh. Now I have used the HorizSync & VertRefresh in Ubuntu and Sabayon with fglrx and it works great. I have another computer with an Nvidia card that runs Arch and it works great on this monitor at 1440*900. When I start GDM it picks its own resolutions regradless of what I have in the Modes section. As of now I can display:
1920x1200
1920x1080
1600x1200
1280x1024
1280x720
1152x864
1024x768
800x600
640x480
Here is my xorg.conf
# File generated by xorgconfig.
# Copyright 2004 The X.Org Foundation
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# The X.Org Foundation BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
# WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF
# OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
# Except as contained in this notice, the name of The X.Org Foundation shall
# not be used in advertising or otherwise to promote the sale, use or other
# dealings in this Software without prior written authorization from
# The X.Org Foundation.
# Refer to the xorg.conf(5) man page for details about the format of
# this file.
# Module section -- this section is used to specify
# which dynamically loadable modules to load.
# Files section. This allows default font and rgb paths to be set
# Server flags section.
# Input devices
# Core keyboard's InputDevice section
# Core Pointer's InputDevice section
# Other input device sections
# this is optional and is required only if you
# are using extended input devices. This is for example only. Refer
# to the xorg.conf man page for a description of the options.
# Section "InputDevice"
# Identifier "Mouse2"
# Driver "mouse"
# Option "Protocol" "MouseMan"
# Option "Device" "/dev/mouse2"
# EndSection
# Section "InputDevice"
# Identifier "spaceball"
# Driver "magellan"
# Option "Device" "/dev/cua0"
# EndSection
# Section "InputDevice"
# Identifier "spaceball2"
# Driver "spaceorb"
# Option "Device" "/dev/cua0"
# EndSection
# Section "InputDevice"
# Identifier "touchscreen0"
# Driver "microtouch"
# Option "Device" "/dev/ttyS0"
# Option "MinX" "1412"
# Option "MaxX" "15184"
# Option "MinY" "15372"
# Option "MaxY" "1230"
# Option "ScreenNumber" "0"
# Option "ReportingMode" "Scaled"
# Option "ButtonNumber" "1"
# Option "SendCoreEvents"
# EndSection
# Section "InputDevice"
# Identifier "touchscreen1"
# Driver "elo2300"
# Option "Device" "/dev/ttyS0"
# Option "MinX" "231"
# Option "MaxX" "3868"
# Option "MinY" "3858"
# Option "MaxY" "272"
# Option "ScreenNumber" "0"
# Option "ReportingMode" "Scaled"
# Option "ButtonThreshold" "17"
# Option "ButtonNumber" "1"
# Option "SendCoreEvents"
# EndSection
# Monitor section
# Any number of monitor sections may be present
# Graphics device section
# Any number of graphics device sections may be present
# Standard VGA Device:
# Device configured by xorgconfig:
# Screen sections
# Any number of screen sections may be present. Each describes
# the configuration of a single screen. A single specific screen section
# may be specified from the X server command line with the "-screen"
# option.
# ServerLayout sections.
# Any number of ServerLayout sections may be present. Each describes
# the way multiple screens are organised. A specific ServerLayout
# section may be specified from the X server command line with the
# "-layout" option. In the absence of this, the first section is used.
# When now ServerLayout section is present, the first Screen section
# is used alone.
# Section "DRI"
# Mode 0666
# EndSection
Section "ServerLayout"
# The Identifier line must be present
# Each Screen line specifies a Screen section name, and optionally
# the relative position of other screens. The four names after
# primary screen name are the screens to the top, bottom, left and right
# of the primary screen. In this example, screen 2 is located to the
# right of screen 1.
# Each InputDevice line specifies an InputDevice section name and
# optionally some options to specify the way the device is to be
# used. Those options include "CorePointer", "CoreKeyboard" and
# "SendCoreEvents".
Identifier "Simple Layout"
Screen 0 "aticonfig-Screen[0]" 0 0
InputDevice "Mouse1" "CorePointer"
InputDevice "Keyboard1" "CoreKeyboard"
EndSection
Section "Files"
# The location of the RGB database. Note, this is the name of the
# file minus the extension (like ".txt" or ".db"). There is normally
# no need to change the default.
# RgbPath "/usr/share/X11/rgb"
# Multiple FontPath entries are allowed (which are concatenated together),
# as well as specifying multiple comma-separated entries in one FontPath
# command (or a combination of both methods)
# FontPath "/usr/lib/X11/fonts/local/"
# FontPath "/usr/lib/X11/fonts/misc/"
# FontPath "/usr/lib/X11/fonts/75dpi/:unscaled"
# FontPath "/usr/lib/X11/fonts/100dpi/:unscaled"
# FontPath "/usr/lib/X11/fonts/Speedo/"
# FontPath "/usr/lib/X11/fonts/Type1/"
# FontPath "/usr/lib/X11/fonts/TrueType/"
# FontPath "/usr/lib/X11/fonts/freefont/"
# FontPath "/usr/lib/X11/fonts/75dpi/"
# FontPath "/usr/lib/X11/fonts/100dpi/"
# The module search path. The default path is shown here.
# ModulePath "/usr/lib/modules"
FontPath "/usr/share/fonts/misc"
FontPath "/usr/share/fonts/100dpi:unscaled"
FontPath "/usr/share/fonts/75dpi:unscaled"
FontPath "/usr/share/fonts/TTF"
FontPath "/usr/share/fonts/Type1"
EndSection
Section "Module"
# This loads the DBE extension module.
# This loads the miscellaneous extensions module, and disables
# initialisation of the XFree86-DGA extension within that module.
# This loads the font modules
# Load "type1"
# This loads the GLX module
# Load "glx"
# This loads the DRI module
# Load "dri"
Load "dbe" # Double buffer extension
SubSection "extmod"
Option "omit xfree86-dga" # don't initialise the DGA extension
EndSubSection
Load "freetype"
# Load "xtt"
EndSection
Section "InputDevice"
# For most OSs the protocol can be omitted (it defaults to "Standard").
# When using XQUEUE (only for SVR3 and SVR4, but not Solaris),
# uncomment the following line.
# Option "Protocol" "Xqueue"
# Option "Xleds" "1 2 3"
# Option "LeftAlt" "Meta"
# Option "RightAlt" "ModeShift"
# To customise the XKB settings to suit your keyboard, modify the
# lines below (which are the defaults). For example, for a non-U.S.
# keyboard, you will probably want to use:
# Option "XkbModel" "pc105"
# If you have a US Microsoft Natural keyboard, you can use:
# Option "XkbModel" "microsoft"
# Then to change the language, change the Layout setting.
# For example, a german layout can be obtained with:
# Option "XkbLayout" "de"
# or:
# Option "XkbLayout" "de"
# Option "XkbVariant" "nodeadkeys"
# If you'd like to switch the positions of your capslock and
# control keys, use:
# Option "XkbOptions" "ctrl:swapcaps"
# These are the default XKB settings for Xorg
# Option "XkbRules" "xorg"
# Option "XkbModel" "pc105"
# Option "XkbLayout" "us"
# Option "XkbVariant" ""
# Option "XkbOptions" ""
# Option "XkbDisable"
Identifier "Keyboard1"
Driver "kbd"
Option "AutoRepeat" "500 30"
# Specify which keyboard LEDs can be user-controlled (eg, with xset(1))
Option "XkbRules" "xorg"
Option "XkbModel" "pc104"
Option "XkbLayout" "us"
EndSection
Section "InputDevice"
# Identifier and driver
# the following line.
# Option "Protocol" "Xqueue"
# Mouse-speed setting for PS/2 mouse.
# Option "Resolution" "256"
# Baudrate and SampleRate are only for some Logitech mice. In
# almost every case these lines should be omitted.
# Option "BaudRate" "9600"
# Option "SampleRate" "150"
# Mouse wheel mapping. Default is to map vertical wheel to buttons 4 & 5,
# horizontal wheel to buttons 6 & 7. Change if your mouse has more than
# 3 buttons and you need to map the wheel to different button ids to avoid
# conflicts.
# Emulate3Timeout is the timeout in milliseconds (default is 50ms)
Identifier "Mouse1"
Driver "mouse"
Option "Protocol" "Auto" # Auto detect
Option "Device" "/dev/input/mice"
# When using XQUEUE, comment out the above two lines, and uncomment
Option "ZAxisMapping" "4 5 6 7"
# Emulate3Buttons is an option for 2-button mice
Option "Emulate3Buttons"
# Option "Emulate3Timeout" "50"
# ChordMiddle is an option for some 3-button Logitech mice
# Option "ChordMiddle"
EndSection
Section "Monitor"
# HorizSync is in kHz unless units are specified.
# HorizSync may be a comma separated list of discrete values, or a
# comma separated list of ranges of values.
# NOTE: THE VALUES HERE ARE EXAMPLES ONLY. REFER TO YOUR MONITOR'S
# USER MANUAL FOR THE CORRECT NUMBERS.
# HorizSync 30-64 # multisync
# HorizSync 31.5, 35.2 # multiple fixed sync frequencies
# HorizSync 15-25, 30-50 # multiple ranges of sync frequencies
# VertRefresh is in Hz unless units are specified.
# VertRefresh may be a comma separated list of discrete values, or a
# comma separated list of ranges of values.
# NOTE: THE VALUES HERE ARE EXAMPLES ONLY. REFER TO YOUR MONITOR'S
# USER MANUAL FOR THE CORRECT NUMBERS.
Identifier "SyncMaster"
HorizSync 30.0 - 81.0
VertRefresh 56.0 - 75.0
EndSection
Section "Monitor"
Identifier "aticonfig-Monitor[0]"
HorizSync 30.0 - 81.0
VertRefresh 56.0 - 75.0
Option "VendorName" "ATI Proprietary Driver"
Option "ModelName" "Generic Autodetecting Monitor"
Option "DPMS" "true"
EndSection
Section "Device"
# The chipset line is optional in most cases. It can be used to override
# the driver's chipset detection, and should not normally be specified.
# Chipset "generic"
# The Driver line must be present. When using run-time loadable driver
# modules, this line instructs the server to load the specified driver
# module. Even when not using loadable driver modules, this line
# indicates which driver should interpret the information in this section.
# The BusID line is used to specify which of possibly multiple devices
# this section is intended for. When this line isn't present, a device
# section can only match up with the primary video device. For PCI
# devices a line like the following could be used. This line should not
# normally be included unless there is more than one video device
# intalled.
# BusID "PCI:0:10:0"
# VideoRam 256
# Clocks 25.2 28.3
Identifier "Standard VGA"
Driver "vga"
VendorName "Unknown"
BoardName "Unknown"
EndSection
Section "Device"
# unsupported card
#VideoRam 262144
# Insert Clocks lines here if appropriate
Identifier "ATI"
Driver "ati"
EndSection
Section "Device"
Identifier "aticonfig-Device[0]"
Driver "fglrx"
EndSection
Section "Screen"
Identifier "Screen 1"
Device "ATI"
Monitor "SyncMaster"
DefaultDepth 24
SubSection "Display"
Viewport 0 0
Depth 8
Modes "1280x1024" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Viewport 0 0
Depth 16
Modes "1280x1024" "1024x768" "800x600" "640x480"
EndSubSection
SubSection "Display"
Viewport 0 0
Depth 24
Modes "1280x1024" "1024x768" "800x600" "640x480"
EndSubSection
EndSection
Section "Screen"
Identifier "aticonfig-Screen[0]"
Device "aticonfig-Device[0]"
Monitor "aticonfig-Monitor[0]"
DefaultDepth 24
SubSection "Display"
Viewport 0 0
Depth 24
EndSubSection
EndSection
And here is my Xorg.0.log:
[code]X Window System Version 7.2.0
Release Date: 22 January 2007
X Protocol Version 11, Revision 0, Release 7.2
Build Operating System: UNKNOWN
Current Operating System: Linux AMD 2.6.22-ARCH #1 SMP PREEMPT Thu Aug 2 18:27:37 CEST 2007 i686
Build Date: 08 April 2007
Before reporting problems, check http://wiki.x.org
to make sure that you have the latest version.
Module Loader present
Markers: (--) probed, (**) from config file, (==) default setting,
(++) from command line, (!!) notice, (II) informational,
(WW) warning, (EE) error, (NI) not implemented, (??) unknown.
(==) Log file: "/var/log/Xorg.0.log", Time: Sat Aug 11 14:30:12 2007
(==) Using config file: "/etc/X11/xorg.conf"
(==) ServerLayout "Simple Layout"
(**) |-->Screen "aticonfig-Screen[0]" (0)
(**) | |-->Monitor "aticonfig-Monitor[0]"
(**) | |-->Device "aticonfig-Device[0]"
(**) |-->Input Device "Mouse1"
(**) |-->Input Device "Keyboard1"
(**) FontPath set to:
/usr/share/fonts/misc,
/usr/share/fonts/100dpi:unscaled,
/usr/share/fonts/75dpi:unscaled,
/usr/share/fonts/TTF,
/usr/share/fonts/Type1
(==) RgbPath set to "/usr/share/X11/rgb"
(==) ModulePath set to "/usr/lib/xorg/modules"
(WW) Open ACPI failed (/var/run/acpid.socket) (No such file or directory)
(II) No APM support in BIOS or kernel
(II) Loader magic: 0x81c44a0
(II) Module ABI versions:
X.Org ANSI C Emulation: 0.3
X.Org Video Driver: 1.1
X.Org XInput driver : 0.7
X.Org Server Extension : 0.3
X.Org Font Renderer : 0.5
(II) Loader running on linux
(II) LoadModule: "pcidata"
(II) Loading /usr/lib/xorg/modules//libpcidata.so
(II) Module pcidata: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
ABI class: X.Org Video Driver, version 1.1
(++) using VT number 7
(II) PCI: PCI scan (all values are in hex)
(II) PCI: 00:00:0: chip 10de,005e card 1043,815a rev a3 class 05,80,00 hdr 00
(II) PCI: 00:01:0: chip 10de,0050 card 1043,815a rev a3 class 06,01,00 hdr 80
(II) PCI: 00:01:1: chip 10de,0052 card 1043,815a rev a2 class 0c,05,00 hdr 80
(II) PCI: 00:02:0: chip 10de,005a card 1043,815a rev a2 class 0c,03,10 hdr 80
(II) PCI: 00:02:1: chip 10de,005b card 1043,815a rev a3 class 0c,03,20 hdr 80
(II) PCI: 00:06:0: chip 10de,0053 card f043,815a rev f2 class 01,01,8a hdr 00
(II) PCI: 00:07:0: chip 10de,0054 card 1043,815a rev f3 class 01,01,85 hdr 00
(II) PCI: 00:08:0: chip 10de,0055 card 1043,815a rev f3 class 01,01,85 hdr 00
(II) PCI: 00:09:0: chip 10de,005c card 0000,0000 rev a2 class 06,04,01 hdr 01
(II) PCI: 00:0a:0: chip 10de,0057 card 1043,8141 rev a3 class 06,80,00 hdr 00
(II) PCI: 00:0b:0: chip 10de,005d card 0000,0000 rev a3 class 06,04,00 hdr 01
(II) PCI: 00:0c:0: chip 10de,005d card 0000,0000 rev a3 class 06,04,00 hdr 01
(II) PCI: 00:0d:0: chip 10de,005d card 0000,0000 rev a3 class 06,04,00 hdr 01
(II) PCI: 00:0e:0: chip 10de,005d card 0000,0000 rev a3 class 06,04,00 hdr 01
(II) PCI: 00:18:0: chip 1022,1100 card 0000,0000 rev 00 class 06,00,00 hdr 80
(II) PCI: 00:18:1: chip 1022,1101 card 0000,0000 rev 00 class 06,00,00 hdr 80
(II) PCI: 00:18:2: chip 1022,1102 card 0000,0000 rev 00 class 06,00,00 hdr 80
(II) PCI: 00:18:3: chip 1022,1103 card 0000,0000 rev 00 class 06,00,00 hdr 80
(II) PCI: 01:00:0: chip 1002,710a card 17af,0b12 rev 00 class 03,00,00 hdr 80
(II) PCI: 01:00:1: chip 1002,712a card 17af,0b13 rev 00 class 03,80,00 hdr 00
(II) PCI: 05:08:0: chip 1102,0007 card 1102,100a rev 00 class 04,01,00 hdr 00
(II) PCI: End of PCI scan
(II) PCI-to-ISA bridge:
(II) Bus -1: bridge is at (0:1:0), (0,-1,-1), BCTRL: 0x0008 (VGA_EN is set)
(II) Subtractive PCI-to-PCI bridge:
(II) Bus 5: bridge is at (0:9:0), (0,5,5), BCTRL: 0x0202 (VGA_EN is cleared)
(II) Bus 5 I/O range:
[0] -1 0 0x0000a000 - 0x0000afff (0x1000) IX[b]
(II) PCI-to-PCI bridge:
(II) Bus 4: bridge is at (0:11:0), (0,4,4), BCTRL: 0x0002 (VGA_EN is cleared)
(II) PCI-to-PCI bridge:
(II) Bus 3: bridge is at (0:12:0), (0,3,3), BCTRL: 0x0002 (VGA_EN is cleared)
(II) PCI-to-PCI bridge:
(II) Bus 2: bridge is at (0:13:0), (0,2,2), BCTRL: 0x0002 (VGA_EN is cleared)
(II) PCI-to-PCI bridge:
(II) Bus 1: bridge is at (0:14:0), (0,1,1), BCTRL: 0x000a (VGA_EN is set)
(II) Bus 1 I/O range:
[0] -1 0 0x00009000 - 0x00009fff (0x1000) IX[b]
(II) Bus 1 non-prefetchable memory range:
[0] -1 0 0xd0000000 - 0xd1ffffff (0x2000000) MX[b]
(II) Bus 1 prefetchable memory range:
[0] -1 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b]
(II) Host-to-PCI bridge:
(II) Bus 0: bridge is at (0:24:0), (0,0,5), BCTRL: 0x0008 (VGA_EN is set)
(II) Bus 0 I/O range:
[0] -1 0 0x00000000 - 0x0000ffff (0x10000) IX[b]
(II) Bus 0 non-prefetchable memory range:
[0] -1 0 0x00000000 - 0xffffffff (0x0) MX[b]
(II) Bus 0 prefetchable memory range:
[0] -1 0 0x00000000 - 0xffffffff (0x0) MX[b]
(--) PCI:*(1:0:0) ATI Technologies Inc R520 [Radeon X1800] rev 0, Mem @ 0xc0000000/28, 0xd1000000/16, I/O @ 0x9000/8, BIOS @ 0xd0000000/17
(--) PCI: (1:0:1) ATI Technologies Inc unknown chipset (0x712a) rev 0, Mem @ 0xd1010000/16
(II) Addressable bus resource ranges are
[0] -1 0 0x00000000 - 0xffffffff (0x0) MX[b]
[1] -1 0 0x00000000 - 0x0000ffff (0x10000) IX[b]
(II) OS-reported resource ranges:
[0] -1 0 0x00100000 - 0x3fffffff (0x3ff00000) MX[b]E(B)
[1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
[2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
[3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
[4] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
[5] -1 0 0x00000000 - 0x000000ff (0x100) IX[b]
(II) Active PCI resource ranges:
[0] -1 0 0xd2000000 - 0xd2000fff (0x1000) MX[b]
[1] -1 0 0xd2001000 - 0xd2001fff (0x1000) MX[b]
[2] -1 0 0xd2002000 - 0xd2002fff (0x1000) MX[b]
[3] -1 0 0xfeb00000 - 0xfeb000ff (0x100) MX[b]
[4] -1 0 0xd2003000 - 0xd2003fff (0x1000) MX[b]
[5] -1 0 0xd0000000 - 0xd001ffff (0x20000) MX[b](B)
[6] -1 0 0xd1000000 - 0xd100ffff (0x10000) MX[b](B)
[7] -1 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b](B)
[8] -1 0 0x0000a000 - 0x0000a01f (0x20) IX[b]
[9] -1 0 0x0000b000 - 0x0000b007 (0x8) IX[b]
[10] -1 0 0x0000c400 - 0x0000c40f (0x10) IX[b]
[11] -1 0 0x00000b60 - 0x00000b63 (0x4) IX[b]
[12] -1 0 0x00000960 - 0x00000967 (0x8) IX[b]
[13] -1 0 0x00000be0 - 0x00000be3 (0x4) IX[b]
[14] -1 0 0x000009e0 - 0x000009e7 (0x8) IX[b]
[15] -1 0 0x0000d800 - 0x0000d80f (0x10) IX[b]
[16] -1 0 0x00000b70 - 0x00000b73 (0x4) IX[b]
[17] -1 0 0x00000970 - 0x00000977 (0x8) IX[b]
[18] -1 0 0x00000bf0 - 0x00000bf3 (0x4) IX[b]
[19] -1 0 0x000009f0 - 0x000009f7 (0x8) IX[b]
[20] -1 0 0x0000f000 - 0x0000f00f (0x10) IX[b]
[21] -1 0 0x00004c40 - 0x00004c7f (0x40) IX[b]
[22] -1 0 0x00004c00 - 0x00004c3f (0x40) IX[b]
[23] -1 0 0x0000dc00 - 0x0000dc1f (0x20) IX[b]
[24] -1 0 0x00009000 - 0x000090ff (0x100) IX[b](B)
(II) Inactive PCI resource ranges:
[0] -1 0 0xd1010000 - 0xd101ffff (0x10000) MX[b](B)
(II) Active PCI resource ranges after removing overlaps:
[0] -1 0 0xd2000000 - 0xd2000fff (0x1000) MX[b]
[1] -1 0 0xd2001000 - 0xd2001fff (0x1000) MX[b]
[2] -1 0 0xd2002000 - 0xd2002fff (0x1000) MX[b]
[3] -1 0 0xfeb00000 - 0xfeb000ff (0x100) MX[b]
[4] -1 0 0xd2003000 - 0xd2003fff (0x1000) MX[b]
[5] -1 0 0xd0000000 - 0xd001ffff (0x20000) MX[b](B)
[6] -1 0 0xd1000000 - 0xd100ffff (0x10000) MX[b](B)
[7] -1 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b](B)
[8] -1 0 0x0000a000 - 0x0000a01f (0x20) IX[b]
[9] -1 0 0x0000b000 - 0x0000b007 (0x8) IX[b]
[10] -1 0 0x0000c400 - 0x0000c40f (0x10) IX[b]
[11] -1 0 0x00000b60 - 0x00000b63 (0x4) IX[b]
[12] -1 0 0x00000960 - 0x00000967 (0x8) IX[b]
[13] -1 0 0x00000be0 - 0x00000be3 (0x4) IX[b]
[14] -1 0 0x000009e0 - 0x000009e7 (0x8) IX[b]
[15] -1 0 0x0000d800 - 0x0000d80f (0x10) IX[b]
[16] -1 0 0x00000b70 - 0x00000b73 (0x4) IX[b]
[17] -1 0 0x00000970 - 0x00000977 (0x8) IX[b]
[18] -1 0 0x00000bf0 - 0x00000bf3 (0x4) IX[b]
[19] -1 0 0x000009f0 - 0x000009f7 (0x8) IX[b]
[20] -1 0 0x0000f000 - 0x0000f00f (0x10) IX[b]
[21] -1 0 0x00004c40 - 0x00004c7f (0x40) IX[b]
[22] -1 0 0x00004c00 - 0x00004c3f (0x40) IX[b]
[23] -1 0 0x0000dc00 - 0x0000dc1f (0x20) IX[b]
[24] -1 0 0x00009000 - 0x000090ff (0x100) IX[b](B)
(II) Inactive PCI resource ranges after removing overlaps:
[0] -1 0 0xd1010000 - 0xd101ffff (0x10000) MX[b](B)
(II) OS-reported resource ranges after removing overlaps with PCI:
[0] -1 0 0x00100000 - 0x3fffffff (0x3ff00000) MX[b]E(B)
[1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
[2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
[3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
[4] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
[5] -1 0 0x00000000 - 0x000000ff (0x100) IX[b]
(II) All system resource ranges:
[0] -1 0 0x00100000 - 0x3fffffff (0x3ff00000) MX[b]E(B)
[1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
[2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
[3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
[4] -1 0 0xd2000000 - 0xd2000fff (0x1000) MX[b]
[5] -1 0 0xd2001000 - 0xd2001fff (0x1000) MX[b]
[6] -1 0 0xd2002000 - 0xd2002fff (0x1000) MX[b]
[7] -1 0 0xfeb00000 - 0xfeb000ff (0x100) MX[b]
[8] -1 0 0xd2003000 - 0xd2003fff (0x1000) MX[b]
[9] -1 0 0xd0000000 - 0xd001ffff (0x20000) MX[b](B)
[10] -1 0 0xd1000000 - 0xd100ffff (0x10000) MX[b](B)
[11] -1 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b](B)
[12] -1 0 0xd1010000 - 0xd101ffff (0x10000) MX[b](B)
[13] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
[14] -1 0 0x00000000 - 0x000000ff (0x100) IX[b]
[15] -1 0 0x0000a000 - 0x0000a01f (0x20) IX[b]
[16] -1 0 0x0000b000 - 0x0000b007 (0x8) IX[b]
[17] -1 0 0x0000c400 - 0x0000c40f (0x10) IX[b]
[18] -1 0 0x00000b60 - 0x00000b63 (0x4) IX[b]
[19] -1 0 0x00000960 - 0x00000967 (0x8) IX[b]
[20] -1 0 0x00000be0 - 0x00000be3 (0x4) IX[b]
[21] -1 0 0x000009e0 - 0x000009e7 (0x8) IX[b]
[22] -1 0 0x0000d800 - 0x0000d80f (0x10) IX[b]
[23] -1 0 0x00000b70 - 0x00000b73 (0x4) IX[b]
[24] -1 0 0x00000970 - 0x00000977 (0x8) IX[b]
[25] -1 0 0x00000bf0 - 0x00000bf3 (0x4) IX[b]
[26] -1 0 0x000009f0 - 0x000009f7 (0x8) IX[b]
[27] -1 0 0x0000f000 - 0x0000f00f (0x10) IX[b]
[28] -1 0 0x00004c40 - 0x00004c7f (0x40) IX[b]
[29] -1 0 0x00004c00 - 0x00004c3f (0x40) IX[b]
[30] -1 0 0x0000dc00 - 0x0000dc1f (0x20) IX[b]
[31] -1 0 0x00009000 - 0x000090ff (0x100) IX[b](B)
(II) LoadModule: "dbe"
(II) Loading /usr/lib/xorg/modules/extensions//libdbe.so
(II) Module dbe: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
Module class: X.Org Server Extension
ABI class: X.Org Server Extension, version 0.3
(II) Loading extension DOUBLE-BUFFER
(II) LoadModule: "extmod"
(II) Loading /usr/lib/xorg/modules/extensions//libextmod.so
(II) Module extmod: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
Module class: X.Org Server Extension
ABI class: X.Org Server Extension, version 0.3
(II) Loading extension SHAPE
(II) Loading extension MIT-SUNDRY-NONSTANDARD
(II) Loading extension BIG-REQUESTS
(II) Loading extension SYNC
(II) Loading extension MIT-SCREEN-SAVER
(II) Loading extension XC-MISC
(II) Loading extension XFree86-VidModeExtension
(II) Loading extension XFree86-Misc
(II) Loading extension DPMS
(II) Loading extension TOG-CUP
(II) Loading extension Extended-Visual-Information
(II) Loading extension XVideo
(II) Loading extension XVideo-MotionCompensation
(II) Loading extension X-Resource
(II) LoadModule: "freetype"
(II) Loading /usr/lib/xorg/modules/fonts//libfreetype.so
(II) Module freetype: vendor="X.Org Foundation & the After X-TT Project"
compiled for 7.2.0, module version = 2.1.0
Module class: X.Org Font Renderer
ABI class: X.Org Font Renderer, version 0.5
(II) Loading font FreeType
(II) LoadModule: "fglrx"
(II) Loading /usr/lib/xorg/modules/drivers//fglrx_drv.so
(II) Module fglrx: vendor="FireGL - ATI Technologies Inc."
compiled for 7.1.0, module version = 8.39.4
Module class: X.Org Video Driver
ABI class: X.Org Video Driver, version 1.0
(II) LoadModule: "mouse"
(II) Loading /usr/lib/xorg/modules/input//mouse_drv.so
(II) Module mouse: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.1.1
Module class: X.Org XInput Driver
ABI class: X.Org XInput driver, version 0.7
(II) LoadModule: "kbd"
(II) Loading /usr/lib/xorg/modules/input//kbd_drv.so
(II) Module kbd: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.1.0
Module class: X.Org XInput Driver
ABI class: X.Org XInput driver, version 0.7
(II) Primary Device is: PCI 01:00:0
(II) ATI Proprietary Linux Driver Version Identifier:8.39.4
(II) ATI Proprietary Linux Driver Release Identifier: UNSUPPORTED-8.393.1
(II) ATI Proprietary Linux Driver Build Date: Jul 20 2007 13:50:07
(--) Assigning device section with no busID to primary device
(WW) fglrx: No matching Device section for instance (BusID PCI:1:0:1) found
(--) Chipset Supported AMD Graphics Processor (0x710A) found
(II) AMD Video driver is running on a device belonging to a group targeted for this release
(II) resource ranges after xf86ClaimFixedResources() call:
[0] -1 0 0x00100000 - 0x3fffffff (0x3ff00000) MX[b]E(B)
[1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
[2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
[3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
[4] -1 0 0xd2000000 - 0xd2000fff (0x1000) MX[b]
[5] -1 0 0xd2001000 - 0xd2001fff (0x1000) MX[b]
[6] -1 0 0xd2002000 - 0xd2002fff (0x1000) MX[b]
[7] -1 0 0xfeb00000 - 0xfeb000ff (0x100) MX[b]
[8] -1 0 0xd2003000 - 0xd2003fff (0x1000) MX[b]
[9] -1 0 0xd0000000 - 0xd001ffff (0x20000) MX[b](B)
[10] -1 0 0xd1000000 - 0xd100ffff (0x10000) MX[b](B)
[11] -1 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b](B)
[12] -1 0 0xd1010000 - 0xd101ffff (0x10000) MX[b](B)
[13] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
[14] -1 0 0x00000000 - 0x000000ff (0x100) IX[b]
[15] -1 0 0x0000a000 - 0x0000a01f (0x20) IX[b]
[16] -1 0 0x0000b000 - 0x0000b007 (0x8) IX[b]
[17] -1 0 0x0000c400 - 0x0000c40f (0x10) IX[b]
[18] -1 0 0x00000b60 - 0x00000b63 (0x4) IX[b]
[19] -1 0 0x00000960 - 0x00000967 (0x8) IX[b]
[20] -1 0 0x00000be0 - 0x00000be3 (0x4) IX[b]
[21] -1 0 0x000009e0 - 0x000009e7 (0x8) IX[b]
[22] -1 0 0x0000d800 - 0x0000d80f (0x10) IX[b]
[23] -1 0 0x00000b70 - 0x00000b73 (0x4) IX[b]
[24] -1 0 0x00000970 - 0x00000977 (0x8) IX[b]
[25] -1 0 0x00000bf0 - 0x00000bf3 (0x4) IX[b]
[26] -1 0 0x000009f0 - 0x000009f7 (0x8) IX[b]
[27] -1 0 0x0000f000 - 0x0000f00f (0x10) IX[b]
[28] -1 0 0x00004c40 - 0x00004c7f (0x40) IX[b]
[29] -1 0 0x00004c00 - 0x00004c3f (0x40) IX[b]
[30] -1 0 0x0000dc00 - 0x0000dc1f (0x20) IX[b]
[31] -1 0 0x00009000 - 0x000090ff (0x100) IX[b](B)
(II) fglrx(0): pEnt->device->identifier=0x81e72b8
(II) resource ranges after probing:
[0] -1 0 0x00100000 - 0x3fffffff (0x3ff00000) MX[b]E(B)
[1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
[2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
[3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
[4] -1 0 0xd2000000 - 0xd2000fff (0x1000) MX[b]
[5] -1 0 0xd2001000 - 0xd2001fff (0x1000) MX[b]
[6] -1 0 0xd2002000 - 0xd2002fff (0x1000) MX[b]
[7] -1 0 0xfeb00000 - 0xfeb000ff (0x100) MX[b]
[8] -1 0 0xd2003000 - 0xd2003fff (0x1000) MX[b]
[9] -1 0 0xd0000000 - 0xd001ffff (0x20000) MX[b](B)
[10] -1 0 0xd1000000 - 0xd100ffff (0x10000) MX[b](B)
[11] -1 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b](B)
[12] -1 0 0xd1010000 - 0xd101ffff (0x10000) MX[b](B)
[13] 0 0 0x000a0000 - 0x000affff (0x10000) MS[b]
[14] 0 0 0x000b0000 - 0x000b7fff (0x8000) MS[b]
[15] 0 0 0x000b8000 - 0x000bffff (0x8000) MS[b]
[16] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
[17] -1 0 0x00000000 - 0x000000ff (0x100) IX[b]
[18] -1 0 0x0000a000 - 0x0000a01f (0x20) IX[b]
[19] -1 0 0x0000b000 - 0x0000b007 (0x8) IX[b]
[20] -1 0 0x0000c400 - 0x0000c40f (0x10) IX[b]
[21] -1 0 0x00000b60 - 0x00000b63 (0x4) IX[b]
[22] -1 0 0x00000960 - 0x00000967 (0x8) IX[b]
[23] -1 0 0x00000be0 - 0x00000be3 (0x4) IX[b]
[24] -1 0 0x000009e0 - 0x000009e7 (0x8) IX[b]
[25] -1 0 0x0000d800 - 0x0000d80f (0x10) IX[b]
[26] -1 0 0x00000b70 - 0x00000b73 (0x4) IX[b]
[27] -1 0 0x00000970 - 0x00000977 (0x8) IX[b]
[28] -1 0 0x00000bf0 - 0x00000bf3 (0x4) IX[b]
[29] -1 0 0x000009f0 - 0x000009f7 (0x8) IX[b]
[30] -1 0 0x0000f000 - 0x0000f00f (0x10) IX[b]
[31] -1 0 0x00004c40 - 0x00004c7f (0x40) IX[b]
[32] -1 0 0x00004c00 - 0x00004c3f (0x40) IX[b]
[33] -1 0 0x0000dc00 - 0x0000dc1f (0x20) IX[b]
[34] -1 0 0x00009000 - 0x000090ff (0x100) IX[b](B)
[35] 0 0 0x000003b0 - 0x000003bb (0xc) IS[b]
[36] 0 0 0x000003c0 - 0x000003df (0x20) IS[b]
(II) Setting vga for screen 0.
(II) fglrx(0): === [atiddxPreInit] === begin, [x]
(II) Loading sub module "vgahw"
(II) LoadModule: "vgahw"
(II) Loading /usr/lib/xorg/modules//libvgahw.so
(II) Module vgahw: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 0.1.0
ABI class: X.Org Video Driver, version 1.1
(II) fglrx(0): PCI bus 1 card 0 func 0
(**) fglrx(0): Depth 24, (--) framebuffer bpp 32
(II) fglrx(0): Pixel depth = 24 bits stored in 4 bytes (32 bpp pixmaps)
(==) fglrx(0): Default visual is TrueColor
(**) fglrx(0): Option "DPMS" "true"
(==) fglrx(0): RGB weight 888
(II) fglrx(0): Using 8 bits per RGB (8 bit DAC)
(==) fglrx(0): Gamma Correction for I is 0x06419064
(==) fglrx(0): Gamma Correction for II is 0x06419064
(==) fglrx(0): Buffer Tiling is ON
(II) Loading sub module "int10"
(II) LoadModule: "int10"
(II) Loading /usr/lib/xorg/modules//libint10.so
(II) Module int10: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
ABI class: X.Org Video Driver, version 1.1
(II) fglrx(0): Primary V_BIOS segment is: 0xc000
(--) fglrx(0): Chipset: "Radeon X1800 Series" (Chipset = 0x710a)
(--) fglrx(0): (PciSubVendor = 0x17af, PciSubDevice = 0x0b12)
(--) fglrx(0): board vendor info: third party graphics adapter - NOT original ATI
(--) fglrx(0): Linear framebuffer (phys) at 0xc0000000
(--) fglrx(0): MMIO registers at 0xd1000000
(==) fglrx(0): ROM-BIOS at 0x000c0000
(II) Loading sub module "vbe"
(II) LoadModule: "vbe"
(II) Loading /usr/lib/xorg/modules//libvbe.so
(II) Module vbe: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.1.0
ABI class: X.Org Video Driver, version 1.1
(II) fglrx(0): VESA BIOS detected
(II) fglrx(0): VESA VBE Version 3.0
(II) fglrx(0): VESA VBE Total Mem: 16384 kB
(II) fglrx(0): VESA VBE OEM: ATI ATOMBIOS
(II) fglrx(0): VESA VBE OEM Software Rev: 9.12
(II) fglrx(0): VESA VBE OEM Vendor: (C) 1988-2005, ATI Technologies Inc.
(II) fglrx(0): VESA VBE OEM Product: R520
(II) fglrx(0): VESA VBE OEM Product Rev: 01.00
(II) fglrx(0): ATI Video BIOS revision 9 or later detected
(II) Loading sub module "dri"
(II) LoadModule: "dri"
(II) Loading /usr/lib/xorg/modules/extensions//libdri.so
(II) Module dri: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
ABI class: X.Org Server Extension, version 0.3
(II) Loading extension XFree86-DRI
drmOpenDevice: node name is /dev/dri/card0
drmOpenDevice: open result is 6, (OK)
drmOpenDevice: node name is /dev/dri/card0
drmOpenDevice: open result is 6, (OK)
drmOpenDevice: node name is /dev/dri/card0
drmOpenDevice: open result is 6, (OK)
drmGetBusid returned ''
(II) Loading sub module "fglrxdrm"
(II) LoadModule: "fglrxdrm"
(II) Loading /usr/lib/xorg/modules/linux//libfglrxdrm.so
(II) Module fglrxdrm: vendor="FireGL - ATI Technologies Inc."
compiled for 7.1.0, module version = 8.39.4
ABI class: X.Org Server Extension, version 0.3
(--) fglrx(0): VideoRAM: 262144 kByte, Type: DDR3
(II) fglrx(0): PCIE card detected
(WW) fglrx(0): board is an unknown third party board, chipset is supported
(II) Loading sub module "ddc"
(II) LoadModule: "ddc"
(II) Loading /usr/lib/xorg/modules//libddc.so
(II) Module ddc: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
ABI class: X.Org Video Driver, version 1.1
(II) fglrx(0): Connected Display1: CRT on primary DAC [crt1]
(II) fglrx(0): Display1 EDID data ---------------------------
(II) fglrx(0): Manufacturer: SAM Model: 225 Serial#: 1212231993
(II) fglrx(0): Year: 2006 Week: 42
(II) fglrx(0): EDID Version: 1.3
(II) fglrx(0): Analog Display Input, Input Voltage Level: 0.700/0.300 V
(II) fglrx(0): Sync: Separate Composite SyncOnGreen
(II) fglrx(0): Max H-Image Size [cm]: horiz.: 41 vert.: 26
(II) fglrx(0): Gamma: 2.35
(II) fglrx(0): DPMS capabilities: StandBy; RGB/Color Display
(II) fglrx(0): First detailed timing is preferred mode
(II) fglrx(0): redX: 0.636 redY: 0.349 greenX: 0.290 greenY: 0.589
(II) fglrx(0): blueX: 0.143 blueY: 0.080 whiteX: 0.313 whiteY: 0.329
(II) fglrx(0): Supported VESA Video Modes:
(II) fglrx(0): 720x400@70Hz
(II) fglrx(0): 640x480@60Hz
(II) fglrx(0): 640x480@67Hz
(II) fglrx(0): 640x480@72Hz
(II) fglrx(0): 640x480@75Hz
(II) fglrx(0): 800x600@56Hz
(II) fglrx(0): 800x600@60Hz
(II) fglrx(0): 800x600@72Hz
(II) fglrx(0): 800x600@75Hz
(II) fglrx(0): 832x624@75Hz
(II) fglrx(0): 1024x768@60Hz
(II) fglrx(0): 1024x768@70Hz
(II) fglrx(0): 1024x768@75Hz
(II) fglrx(0): 1280x1024@75Hz
(II) fglrx(0): 1152x870@75Hz
(II) fglrx(0): Manufacturer's mask: 0
(II) fglrx(0): Supported Future Video Modes:
(II) fglrx(0): #0: hsize: 1440 vsize 900 refresh: 60 vid: 149
(II) fglrx(0): #1: hsize: 1440 vsize 900 refresh: 75 vid: 3989
(II) fglrx(0): #2: hsize: 1280 vsize 1024 refresh: 60 vid: 32897
(II) fglrx(0): #3: hsize: 1280 vsize 960 refresh: 60 vid: 16513
(II) fglrx(0): #4: hsize: 1152 vsize 864 refresh: 75 vid: 20337
(II) fglrx(0): Supported additional Video Mode:
(II) fglrx(0): clock: 106.5 MHz Image Size: 410 x 257 mm
(II) fglrx(0): h_active: 1440 h_sync: 1520 h_sync_end 1672 h_blank_end 1904 h_border: 0
(II) fglrx(0): v_active: 900 v_sync: 903 v_sync_end 909 v_blanking: 934 v_border: 0
(II) fglrx(0): Ranges: V min: 56 V max: 75 Hz, H min: 30 H max: 81 kHz, PixClock max 140 MHz
(II) fglrx(0): Monitor name: SyncMaster
(II) fglrx(0): Serial No: HVELA46878
(II) fglrx(0): EDID (in hex):
(II) fglrx(0): 00ffffffffffff004c2d250239314148
(II) fglrx(0): 2a1001030e291a878ad7a5a2594a9624
(II) fglrx(0): 145054bfef809500950f81808140714f
(II) fglrx(0): 0101010101019a29a0d0518422305098
(II) fglrx(0): 36009a011100001c000000fd00384b1e
(II) fglrx(0): 510e000a202020202020000000fc0053
(II) fglrx(0): 796e634d61737465720a2020000000ff
(II) fglrx(0): 004856454c4134363837380a20200091
(II) fglrx(0): End of Display1 EDID data --------------------
(WW) fglrx(0): Only one display is connnected,so single mode is enabled
(II) fglrx(0): Primary Controller - CRT on primary DAC
(II) fglrx(0): Internal Desktop Setting: 0x00000001
(II) fglrx(0): POWERplay version 3. 1 power state available:
(II) fglrx(0): 1. 520/495MHz @ 0Hz [enable load balancing]
(==) fglrx(0): Qbs disabled
(==) fglrx(0): FAST_SWAP disabled
(==) fglrx(0): PseudoColor visuals disabled
(==) fglrx(0): Using gamma correction (1.0, 1.0, 1.0)
(==) fglrx(0): Center Mode is disabled
(==) fglrx(0): TMDS coherent mode is enabled
(II) fglrx(0): Total of 38 modes found for primary display.
(--) fglrx(0): Virtual size is 1920x1200 (pitch 0)
(**) fglrx(0): *Mode "1920x1200": 193.2 MHz (scaled from 0.0 MHz), 74.6 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1920x1200" 193.25 1920 2056 2256 2592 1200 1203 1209 1245 +hsync
(**) fglrx(0): *Mode "1920x1080": 172.8 MHz (scaled from 0.0 MHz), 67.1 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1920x1080" 172.79 1920 2040 2248 2576 1080 1081 1084 1118 +hsync
(**) fglrx(0): Default mode "1920x1080": 81.6 MHz (scaled from 0.0 MHz), 33.6 kHz, 30.0 Hz (I)
(II) fglrx(0): Modeline "1920x1080" 81.64 1920 1984 2176 2432 1080 1081 1084 1119 interlace +hsync
(**) fglrx(0): *Mode "1600x1200": 162.0 MHz (scaled from 0.0 MHz), 75.0 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1600x1200" 162.00 1600 1664 1856 2160 1200 1201 1204 1250
(**) fglrx(0): *Mode "1280x1024": 135.0 MHz (scaled from 0.0 MHz), 80.0 kHz, 75.0 Hz
(II) fglrx(0): Modeline "1280x1024" 135.00 1280 1296 1440 1688 1024 1025 1028 1066
(**) fglrx(0): Default mode "1280x1024": 128.9 MHz (scaled from 0.0 MHz), 74.6 kHz, 70.0 Hz
(II) fglrx(0): Modeline "1280x1024" 128.94 1280 1368 1504 1728 1024 1025 1028 1066 +hsync
(**) fglrx(0): Default mode "1280x1024": 108.0 MHz (scaled from 0.0 MHz), 64.0 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1280x1024" 108.00 1280 1328 1440 1688 1024 1025 1028 1066
(**) fglrx(0): Default mode "1280x1024": 85.5 MHz (scaled from 0.0 MHz), 50.9 kHz, 47.0 Hz (I)
(II) fglrx(0): Modeline "1280x1024" 85.51 1280 1344 1480 1680 1024 1025 1028 1083 interlace +hsync
(**) fglrx(0): Default mode "1280x1024": 77.8 MHz (scaled from 0.0 MHz), 46.3 kHz, 43.0 Hz (I)
(II) fglrx(0): Modeline "1280x1024" 77.80 1280 1344 1480 1680 1024 1025 1028 1077 interlace +hsync
(**) fglrx(0): *Mode "1280x720": 74.5 MHz (scaled from 0.0 MHz), 44.8 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1280x720" 74.48 1280 1336 1472 1664 720 721 724 746 +hsync
(**) fglrx(0): Default mode "1280x720": 60.5 MHz (scaled from 0.0 MHz), 37.0 kHz, 50.0 Hz
(II) fglrx(0): Modeline "1280x720" 60.46 1280 1328 1456 1632 720 721 724 741 +hsync
(**) fglrx(0): *Mode "1152x864": 108.0 MHz (scaled from 0.0 MHz), 67.5 kHz, 75.0 Hz
(II) fglrx(0): Modeline "1152x864" 108.00 1152 1216 1344 1600 864 865 868 900
(**) fglrx(0): Default mode "1152x864": 96.8 MHz (scaled from 0.0 MHz), 63.0 kHz, 70.0 Hz
(II) fglrx(0): Modeline "1152x864" 96.76 1152 1224 1344 1536 864 865 868 900 +hsync
(**) fglrx(0): Default mode "1152x864": 81.6 MHz (scaled from 0.0 MHz), 53.7 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1152x864" 81.62 1152 1216 1336 1520 864 865 868 895 +hsync
(**) fglrx(0): Default mode "1152x864": 64.7 MHz (scaled from 0.0 MHz), 43.0 kHz, 47.0 Hz (I)
(II) fglrx(0): Modeline "1152x864" 64.67 1152 1208 1328 1504 864 865 868 915 interlace +hsync
(**) fglrx(0): Default mode "1152x864": 58.3 MHz (scaled from 0.0 MHz), 39.2 kHz, 43.0 Hz (I)
(II) fglrx(0): Modeline "1152x864" 58.28 1152 1200 1320 1488 864 865 868 911 interlace +hsync
(**) fglrx(0): *Mode "1024x768": 78.8 MHz (scaled from 0.0 MHz), 60.0 kHz, 75.0 Hz
(II) fglrx(0): Modeline "1024x768" 78.75 1024 1040 1136 1312 768 769 772 800
(**) fglrx(0): Default mode "1024x768": 78.4 MHz (scaled from 0.0 MHz), 57.7 kHz, 72.0 Hz
(II) fglrx(0): Modeline "1024x768" 78.43 1024 1080 1192 1360 768 769 772 801 +hsync
(**) fglrx(0): Default mode "1024x768": 75.0 MHz (scaled from 0.0 MHz), 56.5 kHz, 70.0 Hz
(II) fglrx(0): Modeline "1024x768" 75.00 1024 1048 1184 1328 768 771 777 806 +hsync +vsync
(**) fglrx(0): Default mode "1024x768": 65.0 MHz (scaled from 0.0 MHz), 48.4 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1024x768" 65.00 1024 1048 1184 1344 768 771 777 806 +hsync +vsync
(**) fglrx(0): Default mode "1024x768": 44.9 MHz (scaled from 0.0 MHz), 35.5 kHz, 43.0 Hz (I)
(II) fglrx(0): Modeline "1024x768" 44.90 1024 1032 1208 1264 768 768 772 817 interlace
(**) fglrx(0): *Mode "800x600": 49.5 MHz (scaled from 0.0 MHz), 46.9 kHz, 75.0 Hz
(II) fglrx(0): Modeline "800x600" 49.50 800 816 896 1056 600 601 604 625
(**) fglrx(0): Default mode "800x600": 50.0 MHz (scaled from 0.0 MHz), 48.1 kHz, 72.0 Hz
(II) fglrx(0): Modeline "800x600" 50.00 800 856 976 1040 600 637 643 666
(**) fglrx(0): Default mode "800x600": 45.5 MHz (scaled from 0.0 MHz), 43.8 kHz, 70.0 Hz
(II) fglrx(0): Modeline "800x600" 45.50 800 840 920 1040 600 601 604 625 +hsync
(**) fglrx(0): Default mode "800x600": 40.0 MHz (scaled from 0.0 MHz), 37.9 kHz, 60.0 Hz
(II) fglrx(0): Modeline "800x600" 40.00 800 840 968 1056 600 601 605 628
(**) fglrx(0): Default mode "800x600": 36.0 MHz (scaled from 0.0 MHz), 35.2 kHz, 56.0 Hz
(II) fglrx(0): Modeline "800x600" 36.00 800 824 896 1024 600 601 603 625
(**) fglrx(0): *Mode "640x480": 31.5 MHz (scaled from 0.0 MHz), 37.5 kHz, 75.0 Hz
(II) fglrx(0): Modeline "640x480" 31.50 640 656 720 840 480 481 484 500 +hsync +vsync
(**) fglrx(0): Default mode "640x480": 31.5 MHz (scaled from 0.0 MHz), 37.9 kHz, 72.0 Hz
(II) fglrx(0): Modeline "640x480" 31.50 640 664 704 832 480 489 492 520 +hsync +vsync
(**) fglrx(0): Default mode "640x480": 25.2 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz
(II) fglrx(0): Modeline "640x480" 25.18 640 656 752 800 480 490 492 525 +hsync +vsync
(**) fglrx(0): Default mode "640x400": 28.1 MHz (scaled from 0.0 MHz), 33.7 kHz, 75.0 Hz
(II) fglrx(0): Modeline "640x400" 28.07 640 696 736 832 400 413 415 449
(**) fglrx(0): Default mode "640x400": 24.9 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz
(II) fglrx(0): Modeline "640x400" 24.92 640 664 760 792 400 460 462 525
(**) fglrx(0): Default mode "512x384": 19.7 MHz (scaled from 0.0 MHz), 31.1 kHz, 75.0 Hz
(II) fglrx(0): Modeline "512x384" 19.68 512 528 576 632 384 384 385 416
(**) fglrx(0): Default mode "400x300": 24.8 MHz (scaled from 0.0 MHz), 46.9 kHz, 75.0 Hz (D)
(II) fglrx(0): Modeline "400x300" 24.75 400 408 448 528 300 601 602 625 doublescan
(**) fglrx(0): Default mode "400x300": 22.3 MHz (scaled from 0.0 MHz), 45.0 kHz, 60.0 Hz (D)
(II) fglrx(0): Modeline "400x300" 22.33 400 416 480 496 300 601 605 742 doublescan
(**) fglrx(0): Default mode "320x240": 15.8 MHz (scaled from 0.0 MHz), 37.9 kHz, 75.0 Hz (D)
(II) fglrx(0): Modeline "320x240" 15.75 320 328 360 416 240 481 482 501 doublescan
(**) fglrx(0): Default mode "320x240": 12.6 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz (D)
(II) fglrx(0): Modeline "320x240" 12.59 320 328 376 400 240 491 493 525 doublescan
(**) fglrx(0): Default mode "320x200": 13.1 MHz (scaled from 0.0 MHz), 31.5 kHz, 75.0 Hz (D)
(II) fglrx(0): Modeline "320x200" 13.10 320 352 368 416 200 406 407 417 doublescan
(**) fglrx(0): Default mode "320x200": 12.6 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz (D)
(II) fglrx(0): Modeline "320x200" 12.59 320 336 384 400 200 457 459 524 doublescan
(--) fglrx(0): Display dimensions: (410, 260) mm
(--) fglrx(0): DPI set to (118, 117)
(--) fglrx(0): Virtual size is 1920x1200 (pitch 1920)
(**) fglrx(0): *Mode "1920x1200": 193.2 MHz (scaled from 0.0 MHz), 74.6 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1920x1200" 193.25 1920 2056 2256 2592 1200 1203 1209 1245 +hsync
(**) fglrx(0): *Mode "1920x1080": 172.8 MHz (scaled from 0.0 MHz), 67.1 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1920x1080" 172.79 1920 2040 2248 2576 1080 1081 1084 1118 +hsync
(**) fglrx(0): Default mode "1920x1080": 81.6 MHz (scaled from 0.0 MHz), 33.6 kHz, 30.0 Hz (I)
(II) fglrx(0): Modeline "1920x1080" 81.64 1920 1984 2176 2432 1080 1081 1084 1119 interlace +hsync
(**) fglrx(0): *Mode "1600x1200": 162.0 MHz (scaled from 0.0 MHz), 75.0 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1600x1200" 162.00 1600 1664 1856 2160 1200 1201 1204 1250
(**) fglrx(0): *Mode "1280x1024": 135.0 MHz (scaled from 0.0 MHz), 80.0 kHz, 75.0 Hz
(II) fglrx(0): Modeline "1280x1024" 135.00 1280 1296 1440 1688 1024 1025 1028 1066
(**) fglrx(0): Default mode "1280x1024": 128.9 MHz (scaled from 0.0 MHz), 74.6 kHz, 70.0 Hz
(II) fglrx(0): Modeline "1280x1024" 128.94 1280 1368 1504 1728 1024 1025 1028 1066 +hsync
(**) fglrx(0): Default mode "1280x1024": 108.0 MHz (scaled from 0.0 MHz), 64.0 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1280x1024" 108.00 1280 1328 1440 1688 1024 1025 1028 1066
(**) fglrx(0): Default mode "1280x1024": 85.5 MHz (scaled from 0.0 MHz), 50.9 kHz, 47.0 Hz (I)
(II) fglrx(0): Modeline "1280x1024" 85.51 1280 1344 1480 1680 1024 1025 1028 1083 interlace +hsync
(**) fglrx(0): Default mode "1280x1024": 77.8 MHz (scaled from 0.0 MHz), 46.3 kHz, 43.0 Hz (I)
(II) fglrx(0): Modeline "1280x1024" 77.80 1280 1344 1480 1680 1024 1025 1028 1077 interlace +hsync
(**) fglrx(0): *Mode "1280x720": 74.5 MHz (scaled from 0.0 MHz), 44.8 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1280x720" 74.48 1280 1336 1472 1664 720 721 724 746 +hsync
(**) fglrx(0): Default mode "1280x720": 60.5 MHz (scaled from 0.0 MHz), 37.0 kHz, 50.0 Hz
(II) fglrx(0): Modeline "1280x720" 60.46 1280 1328 1456 1632 720 721 724 741 +hsync
(**) fglrx(0): *Mode "1152x864": 108.0 MHz (scaled from 0.0 MHz), 67.5 kHz, 75.0 Hz
(II) fglrx(0): Modeline "1152x864" 108.00 1152 1216 1344 1600 864 865 868 900
(**) fglrx(0): Default mode "1152x864": 96.8 MHz (scaled from 0.0 MHz), 63.0 kHz, 70.0 Hz
(II) fglrx(0): Modeline "1152x864" 96.76 1152 1224 1344 1536 864 865 868 900 +hsync
(**) fglrx(0): Default mode "1152x864": 81.6 MHz (scaled from 0.0 MHz), 53.7 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1152x864" 81.62 1152 1216 1336 1520 864 865 868 895 +hsync
(**) fglrx(0): Default mode "1152x864": 64.7 MHz (scaled from 0.0 MHz), 43.0 kHz, 47.0 Hz (I)
(II) fglrx(0): Modeline "1152x864" 64.67 1152 1208 1328 1504 864 865 868 915 interlace +hsync
(**) fglrx(0): Default mode "1152x864": 58.3 MHz (scaled from 0.0 MHz), 39.2 kHz, 43.0 Hz (I)
(II) fglrx(0): Modeline "1152x864" 58.28 1152 1200 1320 1488 864 865 868 911 interlace +hsync
(**) fglrx(0): *Mode "1024x768": 78.8 MHz (scaled from 0.0 MHz), 60.0 kHz, 75.0 Hz
(II) fglrx(0): Modeline "1024x768" 78.75 1024 1040 1136 1312 768 769 772 800
(**) fglrx(0): Default mode "1024x768": 78.4 MHz (scaled from 0.0 MHz), 57.7 kHz, 72.0 Hz
(II) fglrx(0): Modeline "1024x768" 78.43 1024 1080 1192 1360 768 769 772 801 +hsync
(**) fglrx(0): Default mode "1024x768": 75.0 MHz (scaled from 0.0 MHz), 56.5 kHz, 70.0 Hz
(II) fglrx(0): Modeline "1024x768" 75.00 1024 1048 1184 1328 768 771 777 806 +hsync +vsync
(**) fglrx(0): Default mode "1024x768": 65.0 MHz (scaled from 0.0 MHz), 48.4 kHz, 60.0 Hz
(II) fglrx(0): Modeline "1024x768" 65.00 1024 1048 1184 1344 768 771 777 806 +hsync +vsync
(**) fglrx(0): Default mode "1024x768": 44.9 MHz (scaled from 0.0 MHz), 35.5 kHz, 43.0 Hz (I)
(II) fglrx(0): Modeline "1024x768" 44.90 1024 1032 1208 1264 768 768 772 817 interlace
(**) fglrx(0): *Mode "800x600": 49.5 MHz (scaled from 0.0 MHz), 46.9 kHz, 75.0 Hz
(II) fglrx(0): Modeline "800x600" 49.50 800 816 896 1056 600 601 604 625
(**) fglrx(0): Default mode "800x600": 50.0 MHz (scaled from 0.0 MHz), 48.1 kHz, 72.0 Hz
(II) fglrx(0): Modeline "800x600" 50.00 800 856 976 1040 600 637 643 666
(**) fglrx(0): Default mode "800x600": 45.5 MHz (scaled from 0.0 MHz), 43.8 kHz, 70.0 Hz
(II) fglrx(0): Modeline "800x600" 45.50 800 840 920 1040 600 601 604 625 +hsync
(**) fglrx(0): Default mode "800x600": 40.0 MHz (scaled from 0.0 MHz), 37.9 kHz, 60.0 Hz
(II) fglrx(0): Modeline "800x600" 40.00 800 840 968 1056 600 601 605 628
(**) fglrx(0): Default mode "800x600": 36.0 MHz (scaled from 0.0 MHz), 35.2 kHz, 56.0 Hz
(II) fglrx(0): Modeline "800x600" 36.00 800 824 896 1024 600 601 603 625
(**) fglrx(0): *Mode "640x480": 31.5 MHz (scaled from 0.0 MHz), 37.5 kHz, 75.0 Hz
(II) fglrx(0): Modeline "640x480" 31.50 640 656 720 840 480 481 484 500 +hsync +vsync
(**) fglrx(0): Default mode "640x480": 31.5 MHz (scaled from 0.0 MHz), 37.9 kHz, 72.0 Hz
(II) fglrx(0): Modeline "640x480" 31.50 640 664 704 832 480 489 492 520 +hsync +vsync
(**) fglrx(0): Default mode "640x480": 25.2 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz
(II) fglrx(0): Modeline "640x480" 25.18 640 656 752 800 480 490 492 525 +hsync +vsync
(**) fglrx(0): Default mode "640x400": 28.1 MHz (scaled from 0.0 MHz), 33.7 kHz, 75.0 Hz
(II) fglrx(0): Modeline "640x400" 28.07 640 696 736 832 400 413 415 449
(**) fglrx(0): Default mode "640x400": 24.9 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz
(II) fglrx(0): Modeline "640x400" 24.92 640 664 760 792 400 460 462 525
(**) fglrx(0): Default mode "512x384": 19.7 MHz (scaled from 0.0 MHz), 31.1 kHz, 75.0 Hz
(II) fglrx(0): Modeline "512x384" 19.68 512 528 576 632 384 384 385 416
(**) fglrx(0): Default mode "400x300": 24.8 MHz (scaled from 0.0 MHz), 46.9 kHz, 75.0 Hz (D)
(II) fglrx(0): Modeline "400x300" 24.75 400 408 448 528 300 601 602 625 doublescan
(**) fglrx(0): Default mode "400x300": 22.3 MHz (scaled from 0.0 MHz), 45.0 kHz, 60.0 Hz (D)
(II) fglrx(0): Modeline "400x300" 22.33 400 416 480 496 300 601 605 742 doublescan
(**) fglrx(0): Default mode "320x240": 15.8 MHz (scaled from 0.0 MHz), 37.9 kHz, 75.0 Hz (D)
(II) fglrx(0): Modeline "320x240" 15.75 320 328 360 416 240 481 482 501 doublescan
(**) fglrx(0): Default mode "320x240": 12.6 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz (D)
(II) fglrx(0): Modeline "320x240" 12.59 320 328 376 400 240 491 493 525 doublescan
(**) fglrx(0): Default mode "320x200": 13.1 MHz (scaled from 0.0 MHz), 31.5 kHz, 75.0 Hz (D)
(II) fglrx(0): Modeline "320x200" 13.10 320 352 368 416 200 406 407 417 doublescan
(**) fglrx(0): Default mode "320x200": 12.6 MHz (scaled from 0.0 MHz), 31.5 kHz, 60.0 Hz (D)
(II) fglrx(0): Modeline "320x200" 12.59 320 336 384 400 200 457 459 524 doublescan
(II) Loading sub module "fb"
(II) LoadModule: "fb"
(II) Loading /usr/lib/xorg/modules//libfb.so
(II) Module fb: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
ABI class: X.Org ANSI C Emulation, version 0.3
(II) Loading sub module "ramdac"
(II) LoadModule: "ramdac"
(II) Loading /usr/lib/xorg/modules//libramdac.so
(II) Module ramdac: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 0.1.0
ABI class: X.Org Video Driver, version 1.1
(==) fglrx(0): NoAccel = NO
(II) Loading sub module "xaa"
(II) LoadModule: "xaa"
(II) Loading /usr/lib/xorg/modules//libxaa.so
(II) Module xaa: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.2.0
ABI class: X.Org Video Driver, version 1.1
(==) fglrx(0): HPV inactive
(**) fglrx(0): FSAA enabled: NO
(==) fglrx(0): FSAA Gamma enabled
(==) fglrx(0): FSAA Multisample Position is fix
(==) fglrx(0): NoDRI = NO
(II) Loading sub module "fglrxdrm"
(II) LoadModule: "fglrxdrm"
(II) Reloading /usr/lib/xorg/modules/linux//libfglrxdrm.so
(II) fglrx(0): Depth moves disabled by default
(==) fglrx(0): Capabilities: 0x00000000
(==) fglrx(0): CapabilitiesEx: 0x00000000
(==) fglrx(0): cpuFlags: 0x4000001f
(==) fglrx(0): OpenGL ClientDriverName: "fglrx_dri.so"
(**) fglrx(0): ATI GART size: 128 MB
(II) fglrx(0): [pcie] 126976 kB allocated with handle 0xdeadbeef
(II) fglrx(0): [drm] DRM buffer queue setup: nbufs = 100 bufsize = 65536
(==) fglrx(0): UseFastTLS=0
(==) fglrx(0): BlockSignalsOnLock=1
(==) fglrx(0): EnablePrivateBackZ = NO
(--) Depth 24 pixmap format is 32 bpp
(II) do I need RAC? No, I don't.
(II) resource ranges after preInit:
[0] 0 0 0xd1000000 - 0xd100ffff (0x10000) MX[b]
[1] 0 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b]
[2] -1 0 0x00100000 - 0x3fffffff (0x3ff00000) MX[b]E(B)
[3] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
[4] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
[5] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
[6] -1 0 0xd2000000 - 0xd2000fff (0x1000) MX[b]
[7] -1 0 0xd2001000 - 0xd2001fff (0x1000) MX[b]
[8] -1 0 0xd2002000 - 0xd2002fff (0x1000) MX[b]
[9] -1 0 0xfeb00000 - 0xfeb000ff (0x100) MX[b]
[10] -1 0 0xd2003000 - 0xd2003fff (0x1000) MX[b]
[11] -1 0 0xd0000000 - 0xd001ffff (0x20000) MX[b](B)
[12] -1 0 0xd1000000 - 0xd100ffff (0x10000) MX[b](B)
[13] -1 0 0xc0000000 - 0xcfffffff (0x10000000) MX[b](B)
[14] -1 0 0xd1010000 - 0xd101ffff (0x10000) MX[b](B)
[15] 0 0 0x000a0000 - 0x000affff (0x10000) MS[b](OprU)
[16] 0 0 0x000b0000 - 0x000b7fff (0x8000) MS[b](OprU)
[17] 0 0 0x000b8000 - 0x000bffff (0x8000) MS[b](OprU)
[18] 0 0 0x00009000 - 0x000090ff (0x100) IX[b]
[19] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
[20] -1 0 0x00000000 - 0x000000ff (0x100) IX[b]
[21] -1 0 0x0000a000 - 0x0000a01f (0x20) IX[b]
[22] -1 0 0x0000b000 - 0x0000b007 (0x8) IX[b]
[23] -1 0 0x0000c400 - 0x0000c40f (0x10) IX[b]
[24] -1 0 0x00000b60 - 0x00000b63 (0x4) IX[b]
[25] -1 0 0x00000960 - 0x00000967 (0x8) IX[b]
[26] -1 0 0x00000be0 - 0x00000be3 (0x4) IX[b]
[27] -1 0 0x000009e0 - 0x000009e7 (0x8) IX[b]
[28] -1 0 0x0000d800 - 0x0000d80f (0x10) IX[b]
[29] -1 0 0x00000b70 - 0x00000b73 (0x4) IX[b]
[30] -1 0 0x00000970 - 0x00000977 (0x8) IX[b]
[31] -1 0 0x00000bf0 - 0x00000bf3 (0x4) IX[b]
[32] -1 0 0x000009f0 - 0x000009f7 (0x8) IX[b]
[33] -1 0 0x0000f000 - 0x0000f00f (0x10) IX[b]
[34] -1 0 0x00004c40 - 0x00004c7f (0x40) IX[b]
[35] -1 0 0x00004c00 - 0x00004c3f (0x40) IX[b]
[36] -1 0 0x0000dc00 - 0x0000dc1f (0x20) IX[b]
[37] -1 0 0x00009000 - 0x000090ff (0x100) IX[b](B)
[38] 0 0 0x000003b0 - 0x000003bb (0xc) IS[b](OprU)
[39] 0 0 0x000003c0 - 0x000003df (0x20) IS[b](OprU)
(II) fglrx(0): driver needs X.org 7.1.x.y with x.y >= 0.0
(II) fglrx(0): detected X.org 7.1.0.0
(II) Loading sub module "glx"
(II) LoadModule: "glx"
(II) Loading /usr/lib/xorg/modules/extensions//libglx.so
(II) Module glx: vendor="X.Org Foundation"
compiled for 7.2.0, module version = 1.0.0
ABI class: X.Org Server Extension, version 0.3
(==) AIGLX enabled
(II) Loading extension GLX
(II) Loading extension ATIFGLRXDRI
(II) fglrx(0): doing DRIScreenInit
drmOpenDevice: node name is /dev/dri/card0
drmOpenDevice: open result is 6, (OK)
drmOpenDevice: node name is /dev/dri/card0
drmOpenDevice: open result is 6, (OK)
drmOpenByBusid: Searching for BusID PCI:1:0:0
drmOpenDevice: node name is /dev/dri/card0
drmOpenDevice: open result is 6, (OK)
drmOpenByBusid: drmOpenMinor returns 6
drmOpenByBusid: drmGetBusid reports
drmOpenDevice: node name is /dev/dri/card1
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card2
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card3
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card4
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card5
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card6
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card7
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card8
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed
drmOpenByBusid: drmOpenMinor returns -19
drmOpenDevice: node name is /dev/dri/card9
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: open result is -1, (No such device)
drmOpenDevice: Open failed

L215p - better than T410s screen? Good enough for photo editing work?

I never had set up an external monitor with a laptop, so just have 3 questions regarding the L215p monitor.
1) The T410s outputs screen resolution with an aspect of 16:10. A monitor like the L215p (most new wide monitors for that matter) display an aspect of 16:9. Can I still view with a 16:10 ratio if I use that monitor? I never sacrifice distorted aspect ratios for more screen real estate as things never look correct to me. When I'm watching TV and a channel broadcasts in 4:3, I never widescreen it and "stretch" the image to fill the screen because I like to see things how they were meant to be seen, if you know what I mean. The bottom line, can I preserve the 16:10 when using this monitor (e.g. have the vertical dimension maxed out while having black letterboxed gaps on the left and right)?
2) I'm going to be using the T410s with the L215p. People have been subjectively rating the T410s screen from poor to mediocre, but never awesome. Does the L215p have better image quality (contrast, dynamic range, brightness) than the T410s screen? I know that the image quality from the L215p won't be cutting edge given the moderate price, but just wondering if it's an improvement from the T410s screen in every or most ways.
3) I'm not a pro photographer and my livelihood doesn't depend on shooting pictures, but I do photography as a hobby. I would like to post process my photos using Photoshop and Lightroom and was wondering if the L215p can get the job done (can it be calibrated accurately, is image reproduction to real life close enough, can I post process knowing that what I see is reasonably close to reality, etc).
Thank you.
~Paul
Lenovo ThinkPad T410s - 2901CTO
IBM ThinkPad T41p - 2373GGU
Solved!
Go to Solution.

s2kdriver80 wrote:
Thanks.
1) Ok understood. I'll try to go with a monitor that has a native 16:10 aspect ratio then.
2) I thought so too.
3) Yes I've heard of this. Upon further consideration, I'm scrapping the idea of the Lenovo L215p. Lenovo had the L220x which has a VA panel but I don't know if that's been discontinued. That had a high res 16:10 ratio. I'm considering the Dell UltraSharp 2209WA which has an EIPS panel but that model is nearly a year and a half old. Still ok to buy? In any event, I'm sure the 2209WA would blow the L215p out of the water in terms of display performance.
e-IPS is good, have a look at the Dell Outlet, you could get someones fairly cheaply, even second hand ultrasharp LCD is okay, if they have warranty on them.
Regards,
Jin Li
May this year, be the year of 'DO'!
I am a volunteer, and not a paid staff of Lenovo or Microsoft

Cannot get native 1440x900 resolution

Hey guys. I just upgraded to snow leopard and after using it for a few days, the resolution on my external monitor got warped suddenly and now I can't change the resolution back to the native 1440x900 60Hz. Although there are other resolutions available, it doesn't look clear on the monitor. I would appreciate any answers given. Thanks. (By the way, it's connect by mini-dvi to VGA)
Early 2008 White Macbook 2.4Ghz

i don't have a direct answer, but you could just fiddle around with different settings on both the monitor and the computer. sometimes, you'll end up with different settings for each depending on the output of the picture. sometimes at school, i'll connect to an LCD projector and i get a really bad resolution on the computer, but its fine on the screen. you just have to try different things to get the best result. it shouldn't be an issue of the OS.
hope that helps!
-MacDarling55

Please help! Screen Capture resolution for Flash

Hi,
When I screen capture [using RoBo ScreenCapture] either web
pages off the Net, or dialog boxes of programs [I'm using Flash for
a presentation instead of PP] the images are pixelated or fuzzy or
well, not good enough.
Let me explain In using RoBo, I make the capture at the
highest Jpeg resolution possible. When I bring the jpeg into Flash
[import directly into Library] and bring on the stage, I have to
resize the image because it is too big for the stage [being
800X600]. The projector I will be using for the presentation is
800X600.so I set the stage for that.
When I publish the file and review it [setting my monitor to
800X600] the images look terrible.
Maybe I should explain that when I do the screen captures at
first, my monitor is set at 1600X1200.
Should I set it at 800X600 when doing the captures first? I
mean, does this affect the final output of the resolution of the
jpg's when they are placed in Flash after the capture and import
into the Library?
I have had to make captures of web pages, so I have my
monitor set at 1600X1200 normally so I can get the most real estate
on the screen as possible. I make the screen captures using that
monitor setting. But I have my Flash movie stage set at 800X600.
My questions are:
1. Should I do the captures with the monitor set at 800X600
if the Flash stage is 800X600? If so, why?
2. If the projector resolution is 800X600, can I set my Flash
stage at a higher size [resolution], say 1024X768? Will that
actually affect the resolution when the Flash movie is projected on
a projector with an 800X600 resolution if the Flash movie stage is
larger?
3. What affects the final resolution output of the BMP images
[jpeg's] in Flash for a presentation like I am doing?
4. What size should I capture the images at so I don't have
to resize them in Flash?
WHAH! I just want this presentation to be successful. It's a
training session on educating folks on computer virus
prevention/protection from and ID theft, something this world is in
dire need of!
Thanks in advance form anyone who can help me,
Ellen

> Maybe I should explain that when I do the screen
captures at first, my
> monitor
> is set at 1600X1200.
> Should I set it at 800X600 when doing the captures
first?
A screen capture captures whatever number of pixels you are
grabbing. If
your monitor is 1600x1200 and you capture the entire screen,
then the
resolution you have captures is 1600x1200.
Then two things are happening:
1) you are making it a JPG, which is lossy compresion
2) you are shrinking it to 800 x 600.
To shrink it, Flash has to 'throw away' 75% of the pixels of
the original.
So, no matter what, you are ending up with a lower resolution
image than
what you started with.
> 1. Should I do the captures with the monitor set at
800X600 if the Flash
> stage
> is 800X600? If so, why?
That would make sense. Why? You can only show 800x600 pixels
in your final
presentation. What's the point of capturing more than that?
> 2. If the projector resolution is 800X600, can I set my
Flash stage at a
> higher size [resolution], say 1024X768? Will that
actually affect the
> resolution when the Flash movie is projected on a
projector with an
> 800X600
> resolution if the Flash movie stage is larger?
If the images are that resolution, then yes, if you increase
the size of the
flash file, you should be able to see all of the pixels at
that particular
resolution.
> 3. What affects the final resolution output of the BMP
images [jpeg's] in
> Flash for a presentation like I am doing?
As long as you bring the images in at 100%, the available
resolution of the
images shouldn't change at all.
> 4. What size should I capture the images at so I don't
have to resize them
> in
> Flash?
'Actual' size.
> WHAH! I just want this presentation to be successful.
It's a training
> session
> on educating folks on computer virus
prevention/protection from and ID
> theft,
> something this world is in dire need of!
I'm not sure what RoBo is, but have you considered using a
product like
RoboDemo for this type of thing? That should handle
everything for you.
-Darrel

Macbook Pro Hi Res Screen 1440x900 instead of 1440x852

I have a new 15" MacBook Pro with a High Resolution Screen. I wan't the antiglare more than the high resolution, and I makes some things too small when I don't have my reading glasses. I can set it to 1440x852, which is "OK", but why can't I set it to the reslution the non-high res screen uses (1440x900). There is a bar of black at the top and the bottom, so I do waste a small bit of "real estate".
Maybe not the most earth shaking problem, but something that bugs me....

There is a fix!
I have a 30 inch monitor running at 2560 x 1600 with my Mac Mini and the outrageous $99 adapter from Apple. (Found it new for $60 on eBay.)
My menu bars and Google Chrome's tabs and bookmark bar were both way too small - like 4 point!
TinkerToolSystem, (not TinkerTool) allows you to go into hidden preferences and re-set to "HiDPI." Afer making the adjustment which doubled my DPI, I had to choose half the resolution 1280 x 800, but with no loss of real resolution! Things did get bigger elsewhere but I was able to adjust most of them. Hooray! GL!
Download the Evaluation copy of TinkerToolSystem. You get to open it 5 times for free.
http://www.bresink.com/osx/300321023/Docs-en/pgs/System.html
About halfway down, under "Screen."
For Snow Leopard
By default, Mac OS X assumes that the display screen is rendering graphics with a resolution of 72 pixels per inch. This policy was taken over from the classic Mac OS. While this basic assumption was true when the Macintosh was introduced more than 20 years ago, today's display devices often have a much higher resolution. The pixels have become smaller, so your screen may actually use e.g. 100 pixels per inch. In practice, this means that graphical elements, for example fonts, will be displayed too small, so a 12 point font selected in an application might no longer match the actual size of a 12 point font printed in a book when you compare screen and book side by side.
To accommodate these changes, Mac OS X is capable of using arbitrary display resolutions. TinkerTool System allows you to change the resolution between 36 and 216 pixels per inch. If the screen display stays the same, the screen contents will be displayed larger when you set a higher resolution, and smaller when you set a lower resolution.
For Lion and Mt.Lion
Apple has removed the feature from the operating system that allowed to control the physical resolution of screen output by an infinitely variable factor. As of 10.7 or later, this function was replaced by the feature HiDPI (High Number of Dots per Inch) which allows to double the physical resolution only. This means you can select between the discrete values 72 ppi and 144 ppi (or 288, 578, … ppi in the far future). Other magnification steps or scaling down are no longer available. The HiDPI strategy allow OS X to be used on ultra-high-resolution screens (“retina displays”).
Enabling the HiDPI feature requires two steps. The first step is to unlock HiDPI mode via TinkerTool System. The second step is to select one of the HiDPI display resolutions on the pane Displays ofSystem Preferences. Perform the following steps to work with HiDPI display modes:
Select the item Screen in the pane System.
Switch between the two possible modes Hide HiDPI resolutions and Display HiDPI resolutions.
Log out to let the change take effect.
When you log in again, you can launch System Preferences, go to Displays and choose one of the HiDPI settings shown in the table Display > Resolutions.
WARNING: The display resolution is a very critical setting. If you set the resolution too high, the windows can become so large that they no longer fit on screen. This means you can no longer see or control all parts of some applications which can make your system unusable!
To use the system with 144 ppi, a screen with at least 2048 x 1536 pixels is strongly recommended, because OS X applications are designed by the rule that they can expect windows to have a minimum size of 1024 x 768 pixels at 72 ppi.
The Retina Displays may lead to a software update and then we will all be happy.

*** Still photo (screen capture) resolution

I have a project I'm working on that will be filmed and edited in HDV, but delivered in SD on DVD.
I will be incorporating still images that are supplied to me into the production. I'm being asked if a 72 dpi jpg file is okay or if it needs to be at least 300 dpi. Should I be asking for something like at least 300 dpi in order for them to look correct in the production?
Thanks in advance!

Again - DPI doesn't matter at your end, although it may at their end if they are scanning the images (see below). DPI determines the print size of a picture, not its size or resolution on the video screen. A 1500x1200 image will behave the same in FCP whether it's 72, 300 or any DPI.
If you're doing pan and zooms, you will need to ensure that you can always fill the frame without having to scale the picture past 100%. So if you plan to start close on a detail and zoom out wide, you could end up needing a very large pixel dimension in your images (i.e. twice, three or four times the square pixel equivalent of your HD frame size).
So just tell the graphics people the pixel dimension you need. If they are scanning these images from photos, they can do the math and scan at the appropriate DPI rate (which is where DPI DOES come into the equation, I believe. For instance an 10x8 photo scanned at 300dpi will end up as 3000x2400, which will probably be fine for most purposes, whereas if they scan it at 72dpi you'll only have 720x576 pixels to play with, which won't be enough for full frame.
Hope this helps.
EDIT - post crossed with Studio X's above, so ignore the repetition!

15.4" Screen / 1440x900 Resolution Enough?

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