display Manager
systeM User gUide
VERSION 4.1
4F3882
March, 2006
DISPLAY MANAGER
SYSTEM
USER’S GUIDE
Version 4.1
March 2006
Part Number 4F3882
Eastman Kodak Company
343 State Street
Rochester, NY 14650
©
Eastman Kodak Company, 2006
Kodak and Vision are trademarks of Eastman Kodak Company.
ABOUT THIS BOOK
This book describes how to use the KODAK Display Manager System.
Intended users of this book are
•
•
•
•
•
Cinematographers
Visual effects artists
Directors of photography
Colorists
Post production engineers
The information in this book is also available in the Display Manager System
by clicking Help > Contents.
Instructions for MACINTOSH, IRIX, LINUX, and WINDOWS Operating
Systems are included. The software windows shown are for WINDOWS users,
but the MACINTOSH, LINUX, and IRIX windows function in a similar manner.
Not all features discussed are available to all users as determined by the type
of license that you purchase.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r G u i d e
i
Introduction...................................................................................... 1
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
iii
Table of Contents
Calibration...................................................................................... 31
i v
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Table of Contents
Characterize and Verify Controls Are Not Visible
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
v
Table of Contents
System Requirements................................................................... 89
Shortcut Keys................................................................................ 93
Glossary......................................................................................... 97
Index............................................................................................. 101
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K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
INTRODUCTION
The KODAK Display Manager System lets you display a scanned negative
image as it will appear projected via a motion picture film projector or a video
image as it will appear on a broadcast monitor. The KODAK Display Manager
System interfaces with a number of displays including computer monitors,
HD/SD displays, and digital projectors.
When creating a print film look, the system emulates the photochemical
process of motion picture print film. The results are placed in a LUT (Look Up
Table). This LUT can be exported and used by supported imaging applications
during the post production process.
When creating a video look, the system emulates a broadcast video display.
Before emulating a look, you must first calibrate and characterize your display.
We recommend that you calibrate and characterize your display:
•
•
•
•
•
•
•
Before the start of a new project
If the computer goes into sleep mode or screen saver mode
Whenever you turn on the computer or display
If the display has been jarred or moved
(CRT/LCD monitors) Roughly every 6 to 8 hours; a minimum of once a day
(HD/SD video) Once a day
(Digital projectors) Once a week
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
1
Introduction
Types of Licenses
VISION2 HD System
Edition
Print Film Edition
Time Limit
Term duration
Variable duration - dependant
on loan agreement
Software Key Required
Monitor Calibration
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Monitor Characterization
HD/SD Display
Characterization
Projector Characterization
Print Look Emulation
Print Look Verification
Calibration Verification
Video Look Emulation
Export 3D LUT
Yes
Yes
Yes
No
Yes
No
Yes
Yes
Yes
Yes
Yes (Encrypted)
NOTE
Yes (Encrypted)
Unencrypted LUTs are
available at an additional
charge
Export 1D LUT
Yes (Unencrypted)
No
Image Input Type
.dpx, .cin, .tif (with video
content)
.tif (with video content)
Operating Systems
WINDOWS 2000/XP
WINDOWS 2000/XP
MAC OS 10.2 or higher
(power PC only)
MAC OS 10.2 or higher
(power PC only)
MAC OS X 10.4 Tiger
IRIX 6.5X
MAC OS X 10.4 Tiger
IRIX 6.5X
LINUX Red Hat 9
(ia32 only)
LINUX Red Hat 9 (ia32 only)
Red Hat Enterprise LINUX
3.0 (ia32 only)
FEDORA Core 3
(ia32 only)
Red Hat Enterprise LINUX
3.0 (ia32 only)
FEDORA Core 3
(ia32 only)
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K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Introduction
How it Works
To accurately generate a LUT, you must work from a calibrated and
characterized display. A sensor, which you position on your display, measures
the luminance and chromaticities of a series of color patches. You can also
use the sensor to verify the calibration and characterization.
NOTE
To characterize a projector you must use a spectrophotometer or a colorimeter
suitable for measuring screen reflectance.
Calibration
The automatic calibration process gathers information from a sensor and
transfers it to the monitor via the enable cable (USB Cable ECC 1).
Adjustments are automatically made to the monitor contrast, brightness, and
individual RGB biases and gains via the enable cable, based on information
gathered by the sensor.
The first time that you initiate automatic calibration, the system prompts you to
perform a monitor evaluation to determine if your monitor is capable of being
automatically calibrated.
When calibrating an HD/SD device, you must manually calibrate the device
using standard SMPTE procedures. A colorbars target is supplied with the
Display Manager System.
Manually calibrate your display to SMPTE standards if:
•
•
•
•
You are using an IRIX system
You have an HD/SD device
The enable cable does not recognize your monitor
You were unable to successfully calibrate your monitor using automatic
calibration
Characterization
After you have calibrated your display, you must characterize it to determine
the gamma response and to track the primaries. The result is a .chr file, which
the system uses to create a LUT.
HD/SD displays and digital projectors must be characterized using the Manual
Characterization Assistant. When characterizing these displays, you can:
•
project display patches (provided on the Display Manager System CD or
downloaded from http://www.kodak.com/US/en/motion/products/
dlmanage/kdmDown.jhtml) through a supported imaging application
•
display patches from one of the KODAK Color Patch Set video tapes
available from Kodak
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
3
Introduction
Viewing and Customizing a Look
From the Display Manager System Viewer, you can view images and apply a
transform, which can be either a .chr file or a LUT. With a properly calibrated
and characterized monitor, images will closely match a projected print film
image or broadcast image.
Verification
Perform a verification to measure the quality of the monitor setup and to
measure the closeness of the print film match in CIElab colorspace.
NOTE
Verification is not available for HD/SD displays and digital projectors.
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K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Introduction
Main Window
The main window contains a selection box for the Display Mode and an icon
for each step in the process.
Display Mode: Select Auto if you will be
using the enable cable to calibrate. If not,
it is important that you select Manual.
Calibrate: Opens the Calibration window
where you attach a sensor to measure the
luminance and chromaticity of a series of
color patches.
Characterize: Opens the Characterization
window where you attach a sensor to
measure the luminance and chromaticity of
a series of color patches. Choose Manual
Characterization Assistant to
characterize alternate display devices, such
as HD/SD displays and digital projectors.
Viewer: Opens the Viewer where you load
and view images, customize looks, and
build and export LUTs.
Verify: Opens the Verification window
where you attach a sensor and verify the
quality of the monitor setup and the print
simulation.
Exit: Closes the application.
From the Options menu, select Setup to set the parameters and configure
From the File menu, load your settings, save your settings or reset to the
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
5
Introduction
Supported Hardware
The following hardware is recommended for use with the Display Manager
System.
Generic Monitor Support
The Display Manager System supports many different monitors but not all
monitors can be automatically calibrated by the system. Most high-quality
professional grade monitors can be calibrated.
The first time that you initiate an automatic calibration, you are prompted to
attach a sensor to the monitor so that the system can assess if the monitor
can be automatically calibrated.
NOTE
Before running this evaluation, set your monitor to Expert mode and turn off the
Super Bright mode if applicable.
You are then notified if the monitor can be automatically calibrated. If it cannot,
you can manually adjust your monitor using SMPTE standard procedures and
the supplied colorbars chart. For more information, see “Manual Calibration”
This evaluation runs whenever you attach a monitor that was not previously
tested with the system and then initiate automatic calibration.
Supported Displays
In addition to displays that can be automatically calibrated, you can use the
Display Manager System with LCD monitors, HD/SD displays, and digital
projectors. We recommend cinema grade digital projectors.
Enable Cable (USB Cable ECC 1)
An enable cable is required to transfer data from your monitor to your
computer. This cable can be obtained through Kodak. Contact your service
representative.
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K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Introduction
Supported Sensors
The following sensors are supported by the Display Manager System:
•
X-RITE Monitor Optimizer DTP94+EK (also known as MonacoOPTIX) -
USB connection for LCD or CRT monitors
•
X-RITE Monitor Optimizer DTP92+EK - Serial connection for CRT
monitors
•
•
•
•
•
•
•
SEQUEL Chroma 4/C USB - USB connection for CRT monitors,
SEQUEL Chroma 4/C USB with USB cable - for CRT monitors,
SEQUEL Chroma 4/C Serial - Serial connection for CRT monitors,
SEQUEL Chroma 4/L - USB connection for LCD monitors,
USB Cable for VESA compliant CRT monitors
PHOTO RESEARCH PR-650 - Serial connection for digital projection
MINOLTA CS-100A - Serial connection for digital projection
To purchase the X-RITE, PHOTO RESEARCH or MINOLTA Sensors, contact
the manufacturer.
Refer to the following table when deciding the sensor to use with your system.
WINDOWS
MAC OS
IRIX OS
LINUX OS
OS
CRT
X-RITE
X-RITE
X-RITE
X-RITE
Monitors
andHD/SD
displays
DTP94+EK
DTP94+EK DTP92+EK
DTP92+EK
X-RITE
DTP92+EK
SEQUEL
Chroma 4/C
USB
SEQUEL
Chroma 4/
C USB
SEQUEL
Chroma 4/C
Serial
X-RITE
DTP94+EK
SEQUEL Chroma
4/C USB
SEQUEL Chroma
4/C Serial
SEQUEL
Chroma 4/C
USB
SEQUEL
Chroma 4/C
Serial
LCD
Monitors
X-RITE
DTP94+EK
X-RITE
X-RITE
X-RITE
DTP92+EK
DTP94+EK DTP92+EK
SEQUEL
Chroma 4/L
USB
SEQUEL
Chroma4/L
USB
X-RITE
DTP94+EK
SEQUEL Chroma
4/L
USB
Digital
PHOTO
PHOTO
PHOTO
Projectors RESEARCH
RESEARCH RESEARCH PR-
PR-650
PR-650
650
MINOLTA
CS-100A
MINOLTA
CS-100A
MINOLTA
CS-100A
NOTE
USB sensors are recommended for any system that is USB enabled.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
7
Introduction
Supported Spectrophotometers
When characterizing a digital projector, you must take readings from the
projector output. The following sensors are recommended:
•
•
MINOLTA CS-100A
PHOTO RESEARCH PR-650
Getting Help
Accessing the Online User’s Guide
To access the User’s Guide from within the application, click Help >
Contents.
What’s This
(WINDOWS Operating System only) Press Shift + F1 and a pop-up window
opens that describes the current window.
OR
Click the question mark in the window title bar and then click the item for which
you want more information. A pop-up window opens.
To open What’s This topics in the Viewer, right-click (WINDOWS, IRIX,
LINUX Operating Systems) or Ctrl + click (MACINTOSH Operating System)
an item in the toolbar.
Troubleshooting
Consult the Troubleshooting chapter for issues that you might encounter. See
Email Help
Email questions to tac@ei.kodak.com.
Phone Support
your region.
8
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Installing and Setting Up Your System
INSTALLING AND SETTING UP
YOUR SYSTEM
Follow these four main steps to install and set up your system:
•
•
•
•
Step 1: Install the KODAK Display Manager System Software
Step 2: Connect the Hardware
Step 3: Obtain your License
Step 4: Open the Software
Step 1 Install the Software
IMPORTANT
Before installing the Display Manager System, make sure to uninstall any other
monitor calibration software that you might have on your system.
WINDOWS and MACINTOSH Operating System Installation
IMPORTANT
You must be logged in as administrator (WINDOWS or MACINTOSH Operating
Systems) to install the Display Manager System.
To install on a WINDOWS or MACINTOSH Operating System:
1. Insert the installation CD or double-click the downloaded installation file.
2. (WINDOWS Operating System) Follow the on-screen prompts.
Or
(MACINTOSH Operating System) Double-click kdminstaller.pkg and
follow the onscreen prompts.
3. Connect the hardware to your computer. See “Step 2: Connect the
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
9
Installing and Setting Up Your System
IRIX Installation
IMPORTANT
You must be logged in as root (IRIX Operating System) to install the Display
Manager System.
To install the Display Manager System on an IRIX computer, you should be
familiar with the IRIX inst or swmgr command.
The required files can be found on the installation CD in the dist directory or in
the directory where you uncompress the downloaded files. (See Step 1
below.) Make sure that you have the following files:
•
•
•
kdm
kdm.idb
kdm.sw
The IRIX computer must be running IRIX 6.5x with the corresponding version
of NFS.
To install on an IRIX system:
1. Do one of the following:
• Insert and mount the installation CD.
• Uncompress the downloaded installation file.
a) gunzip KDM_V4_Irix.tar.gz
b) tar xf KDM_V4_Irix.tar
2. Launch inst or swmgr.
3. Select the kdm package from the mounted CD-ROM drive or from the
directory containing the downloaded installation file.
4. Complete the installation by following the on-screen prompts.
5. Connect the hardware to your computer. See “Step 2: Connect the
1 0
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Installing and Setting Up Your System
LINUX Installation
IMPORTANT
You must be logged in as root (LINUX Operating System) to install the Display
Manager System.
To install on a LINUX system:
1. If you are installing from an installation CD, Insert and mount the CD.
2. Change directory to the mounted CDROM or to the directory containing
the downloaded installation file.
3. Type rpm -Uvh KODAK_DMS-4.1.0.i386.rpm to begin the installation
process.
4. Connect the hardware to your computer. See “Step 2: Connect the
NOTE
Configure your panel (taskbar) to allow other windows to appear above. Or set
your panel to autohide.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
1 1
Installing and Setting Up Your System
Step 2: Connect the Hardware
Before connecting the hardware, install the software.
The Display Manager System hardware consists of an enable cable and
sensor. Purchase the sensor that is appropriate for your system configuration.
the Display Manager System.
If you do not have enough available USB ports, use a USB hub when
connecting the enable cable and sensor.
If you must run the cables long distances, you may need to purchase a Port
Authority device and additional cables.
(WINDOWS Operating System) After you connect the hardware, click Next
when the Found New Hardware Wizard opens. Follow the on-screen prompts.
If you are prompted to locate the drivers:
•
SEQUEL drivers are found in C:\Progam Files\Kodak\KODAK Display
Manager System\SequelDrivers.
•
X-RITE drivers are found in C:\Progam Files\Kodak\KODAK Display
Manager System\XRiteDrivers.
NOTE
For digital projectors, MINOLTA CS-100A or PHOTO RESEARCH PR-650
sensors are recommended.
Enable Cable (USB Cable ECC 1)
The enable cable allows the computer to talk to the monitor. It connects to the
monitor port, a USB port, and then to the monitor cable.
You may need a DVI to HD15 pin adapter depending on your configuration.
Connect to the
Connect to the
computer monitor port
monitor cable
Connect to a USB
port
NOTE
(WINDOWS 2000 Operating System only) If you unplug the enable cable or
sensor and then plug it back in, the system will not recognize it until you restart
your computer.
1 2
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Installing and Setting Up Your System
To connect the enable cable:
1. Disconnect the original monitor cable from the computer.
2. Attach the enable cable to the monitor port on the computer.
3. Connect the monitor cable to the enable cable.
4. Attach the USB connector of the enable cable to a USB port.
USB connection
Enable cable connection
Monitor cable connection
X-RITE Sensors
X-RITE Monitor Optimizer DTP94+EK (MonacoOPTIX)
Use this USB sensor on CRT or LCD monitors.
Counterweight -
Attach to the
sensor cable to
counterbalance
the sensor.
USB connection -
Connect to a USB
port on your
computer.
Suction cup -
Attach to the
cable and then
fasten the suction
cup to the screen.
Supports the
instrument's
Sensor - Hang in
front of the monitor
to measure
weight when
using CRT
patches.
monitors.
To position the sensor during calibration:
1. Attach the counterweight to the cable.
2. If using a CRT monitor, attach the suction cup to the sensor cable and
then fasten the suction cup to the screen.
IMPORTANT
Never use the suction cup on an LCD monitor.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
1 3
Installing and Setting Up Your System
3. Position the sensor on the screen. Position the counterweight so that it
counterbalances the sensor.
LCD monitor
CRT monitor
Counterweight
Sensor
Counterweight
Suction cup
Sensor
NOTE
If you are warned that the X-Rite DTP94 software has not passed Windows
Logo testing, click Continue Anyway.
X-RITE Monitor Optimizer DTP92+EK
Use this serial sensor on CRT monitors.
230V power supply
120V power supply
WINDOWS OS
adapter
Adapter
connections
Power supply
connection
Sensor
1 4
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Installing and Setting Up Your System
NOTE
On IRIX, do not use serial port 1.
To connect the sensor:
1. Connect the WINDOWS adapter to the sensor cable.
2. Plug the WINDOWS connector into a serial port.
3. Plug the AC adapter connector into the sensor cable.
4. Plug the AC adapter into a power outlet.
During calibration, attach the sensor as shown here, making sure that the
round portion of the sensor is at the top.
Firmly push on the sides of the sensor so that the spring-loaded suction cup
slides forward onto the screen. When the suction cup is firmly in place, release
the sensor.
You may need to moisten the suction cup by wiping it with a tissue lightly
dampened with water, or to fog the suction cup by breathing on it.
You may need to clean the monitor and suction cup, if the sensor does not
firmly attach. Clean the suction cup with a clean dry cloth.
IMPORTANT
Do not apply a cleanser to the suction cup.
To clean the monitor, use a soft, lint-free paper or cloth lightly dampened with
a mild glass cleaner.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
1 5
Installing and Setting Up Your System
SEQUEL Sensors
Three Sequel sensors are recommended for use with the Display Manager
System.
SEQUEL Chroma 4/C USB Sensor for CRT Monitors
This sensor connects to a USB port and attaches to a CRT monitor with
suction cups.
Attach to the
monitor with
suction cups
Connect to the
computer USB port
During calibration, attach the sensor as shown here.
Press the sensor firmly to the screen being careful not to press too hard.
Center it within the patch. Make sure that all suction cups are pressed against
the monitor. If any of the suction cups come loose, the results may be
unreliable and the process should be repeated. If the sensor falls off the
monitor, reattach it and restart the process.
NOTE
1 6
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Installing and Setting Up Your System
SEQUEL Chroma 4/L USB Sensor
This sensor connects to a USB port. Tip the LCD screen back as far as
possible and hold the sensor against the screen while it is taking readings.
Hold the sensor
against the screen
Connect to the
computer USB port
During calibration, hold the sensor as shown here.
Hold the sensor firmly to the screen being careful not to press too hard. Center
it within the color patch. Continue to hold in place while readings are taken.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
1 7
Installing and Setting Up Your System
SEQUEL Chroma 4/C Serial Sensor for CRT Monitors
The sensor connects to a USB port and attaches to a CRT monitor with
suction cups.
Attach to monitor
with suction cups
Connect to serial port on your
computer
NOTE: On IRIX, do not use
serial port 1.
During calibration, attach the sensor as shown here.
Press the sensor firmly to the screen being careful not to press too hard.
Center it within the color patch. Make sure that all suction cups are pressed
against the monitor. If any of the suction cups come loose, the results may be
unreliable and the process should be repeated. If the sensor falls off the
monitor, reattach it and restart the process.
Sensors Recommended for Digital Projection
•
•
MINOLTA CS-100A
PHOTO RESEARCH PR-650
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K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Installing and Setting Up Your System
PHOTO RESEARCH PR-650
1. Attach the PHOTO RESEARCH IFC-600 RS-232 cable between the PR-
650 and the computer serial port.
2. Go to Options > Setup.
3. Click the Sensor tab.
4. Click Type and select PhotoResearch PR-650.
5. Click Connection and select the com port that the meter is connected to.
NOTE
Do not turn on the device until instructed by KODAK Display Manager Software.
MINOLTA CS-100A
1. Attach the MINOLTA LS-A12 two way interface cable between the
MINOLTA CS-100A and the computer serial port.
2. When turning the device on, press and hold the F button until a C appears
in the device external display.
3. Go to Options > Setup.
4. Click the Sensor tab.
5. Click Type and select MINOLTA CS-100A.
6. Click Connection and select the com port that the meter is connected to.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
1 9
Installing and Setting Up Your System
Step 3: Obtain Your License
click Trial LIcense Key. Follow the on-screen prompts, then proceed to Step
5 (below).
To purchase a license:
1. (WINDOWS Operating System) Click Start > Programs > KODAK
Display Manager System > KODAK HostID Tool.
(LINUX, IRIX, MACINTOSH Operating Systems) In the Display Manager
System main folder locate the KODAK HostID Tool and run the file.
The following window opens.
2. Record all HostIDs and click OK.
for the customer service representative in your region.
4. Provide your customer service representative with the HostID.
License information will be emailed to you.
5. When you receive your license information, copy and paste the
information into an editor such as WordPad and save it as a license file
(.lic). Place the file as follows:
WINDOWS Operating System: C:\Program Files\KODAK\KODAK
Display Manager System\Licenses
MACINTOSH Operating System: /Applications/KODAK Display
Manager System/Licenses
IRIX and LINUX Operating Systems: /usr/local/KDM/Licenses
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K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Installing and Setting Up Your System
Step 4: Open the Display Manager System
On a WINDOWS or MACINTOSH system, double-click the desktop icon
to open the Display Manager System.
On an IRIX or LINUX system:
1. Open a shell and change to the directory /usr/local/KDM.
2. From the command line, type ./kdm.sh.
Renewing Your License
You will be prompted when your license expires. Contact your customer
service representative to purchase a new license.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
2 1
BEFORE CALIBRATING
Before you begin to calibrate, make sure that you:
•
•
Prepare the monitor and viewing environment
Setup the system options for calibration, sensors, tolerances, display,
timing, and directories
•
Load specific settings, if previously saved
NOTE
You do not need to setup the system options each time you calibrate. When the
system opens, it automatically loads the settings that you save in the kdm.ini
file. Or you can create and load a customized .ini file. See “Saving and Loading
Preparing the Viewing Environment and Monitor
•
Let the CRT monitor warm up for at least one hour. LCD monitors take 10
to 15 minutes to warm up.
•
•
•
•
Set your power save mode to Never.
Disable your screen saver.
Set your screen resolution to at least 1280 x 1024.
Dim the room lights or cover the screen with a dark cloth. There should be
no light shining on the screen or on objects that might reflect on the
screen.
•
Set the monitor in Expert mode, if available.
a) From the panel at the front of the monitor, select COLOR.
b) Use the left and right arrow buttons on the panel to highlight the
Expert tab, where you see the bias and gain settings.
NOTE
For some monitors, the Expert mode is already selected as the default.
•
If you have a newer SONY monitor that has a Picture effect button on the
panel at the front of the monitor, press this repeatedly until the message
DYNAMIC appears on screen.
•
•
Set the monitor color quality to the highest possible value (at least 16 bits).
If your display supports Super Bright mode, turn off the Super Bright mode
by repeatedly pressing the SB button on the front of the monitor until the
screen reads “Super Bright Mode Off”.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
23
Before Calibrating
Setting the Options
Go to Options > Setup to open the Setup window. From this window you can:
•
•
•
•
•
•
Set the calibration parameters
Identify the sensor you are using
Set tolerances
Select which display to calibrate on a dual-head system
Control the calibration timing
Set the paths for saving .chr files and LUTs
After you have made all of your selections on the various tabs, click Save
Settings to save all the settings in a .ini file. By default, settings are saved to
the kdm.ini file. When the system opens, it automatically loads the settings
that you save in the kdm.ini file. Save your settings with a different file name
to create a customized .ini file. See “Saving and Loading Settings” on
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K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Before Calibrating
Print Film Calibration Setup
The Print Film Calibration tab on the Setup window contains information that
is required to obtain an accurate print film match.
Projector Aim:
Projector aim values specify the intended film projector open gate settings.
Enter the values for the film projector you are emulating. If you have not
characterized a specific projector, use the default values.
•
•
•
White Luminance (Y) - Open gate luminance can be measured by a
colorimeter or spectrophotometer. Enter the value in ft-lamberts.
White Chromaticity (xy) - Open gate chromaticity can be measured by a
colorimeter or spectrophotometer. Enter values in CIE xy.
Projector SPD (Spectral Power Distribution) - Click this button to open a
browse window where you can load a file that was created when
measuring your projector with a spectroradiometer. This file should be a
single column of values corresponding to measurements from
340 to 970 nm in 10 nm increments. Comment lines may be included in
the file preceded by a # sign.
•
Select Projector Aim Luminance Adjust to bring the brightness of the
display down to the projector aim when simulating the print look. Deselect
this option to keep the brightness at the Display Aim.
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Before Calibrating
Display Aim:
Enter the desired White Luminance for the monitor in ft-lamberts. Setting
your monitor to the projector aim (typically 16 ft-lamberts) would make it too
dark for other work. The display aim gives you the opportunity to set a higher
display aim luminance.
Display - Automatic Calibration:
NOTE
The automatic calibration process tries to match all the values that you enter in
this section.
•
From the Target drop-down list, select your monitor preset target that you
want to over-write during calibration.
•
•
Set the Dark (code value). We recommend using the default settings.
To override the projector Luminance and Chromaticity aim, check
Override Projector Aim for Dark Patch. The value fields become active
and you can enter new values for Dark Luminance (Y) and Dark
Chromaticity (x,y). We recommend using the default settings.
NOTE
The Use Print Film Calibration Settings checkbox is available in the Display
Manager System Print Film Edition. Select this checkbox to use the Print Film
target values in calibration.
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Before Calibrating
Video Calibration Setup
The Video Calibration tab on the Setup window contains information that is
required to obtain an accurate video match.
Aim Settings
Enter the values for the video space you want to calibrate to (CCIR 709,
SMPTE RP145, or User Defined).
The default values represent a typical NTSC HD display. These values can be
altered for a user defined video space.
•
White Point Chromaticity (xy) - Desired white chromaticity. Enter values
in CIE xy.
White Patch
White Luminance (Y) - Desired white (max neutral code value) luminance
•
can be measured by a colorimeter or spectrophotometer. Enter the value
in ft-lamberts.
NOTE
Recommended practices for HD/SD video monitors place video legal whites
at a luminance of approximately 30 ftL. Translating video 100% legal white
(code value of 940) to a maximum monitor drive code value of 1023 (10-bit)
yields an absolute monitor white luminance recommendation of
approximately 34 ftL. This high luminance setting may degrade the useful
lifetime of some monitors.
Dark Patch
To override the video Dark (code value) settings, check Override
•
Calculated Aims for Dark Patch. The value fields become active and you
can enter new values for Dark Luminance (Y). We recommend using the
default settings.
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Before Calibrating
Use Video Calibration Settings
•
Select this checkbox to determine which target values to use for
calibration.
NOTE
If using the KODAK VISION2 HD System, use the default values when working
with typical NTSC HD displays.
Sensor Setup
From the Sensor tab on the Setup window, use the drop-down menus to
select the type of sensor and the type of connection.
IMPORTANT
If you do not select the correct sensor and connection, the sensor will fail to
initialize.
Tolerances Setup
From the Tolerances tab on the Setup window, you can set the plus or minus
calibration tolerances that you want to allow for your aim values. We
recommend using the default settings.
Display Setup
If your system is configured for dual-head support, you must select the display
that you want to view images on.
From the Display tab on the Setup window, use the Display to Operate On
drop-down menu to select the display where you want to view the images.
This display will be calibrated and characterized.
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Before Calibrating
Timing Setup
Adjusting the time between the appearance of color sets and individual color
patches, affects the total time to calibrate and characterize your display.
IMPORTANT
You may encounter calibration and characterization errors if the timing is set too
fast. We recommend leaving the values set at the default. Never set the timing
slower than the defaults.
From the Times tab on the Setup window, use the arrows to set the values.
Directories Setup
From the Directories tab on the Setup window, click the CHR Directory and
LUT Directory buttons to select the directories where you want to save those
files.
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Before Calibrating
Saving and Loading Settings
If you are working on several projects at one time, you may find it convenient
to save all of the settings for each project in a customized .ini file. Load the
appropriate file to quickly change all your settings when you change projects.
By default, settings are saved to the kdm.ini file. This is the file that is used
each time the system opens. There are two different locations where you can
save settings to an .ini file—the Setup window and the Viewer.
To create a customized .ini file:
1. Go to Options > Setup. Enter the appropriate values and click Save
Settings. Name the file appropriately.
2. Open the Viewer and make the appropriate selections. Click Save
Settings. Save the file with the same name used in step 1.
To load a customized .ini file:
1. Go to File > Load Settings.
2. Browse for and double-click the .ini file that you want to use.
To save all settings at once:
Go to File > Save Settings.
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Calibration
CALIBRATION
From the Display Mode drop-down menu on the main window, select either
Auto or Manual calibration.
Automatic calibration uses the enable cable to transfer data from the computer
to a monitor. Adjustments based on this data are automatically made to your
The Manual Calibration Assistant is used to adjust your monitor to SMPTE
standards if:
•
•
•
•
You are using an IRIX system
You are displaying your images on an HD/SD display or digital projector
The enable cable does not recognize your monitor
You were unable to successfully calibrate your monitor using automatic
calibration
Automatic Calibration
Use this calibration method if you are using an enable cable to transfer data
from your monitor to your computer. The system performs an evaluation to
determine if your monitor can be automatically calibrated.
IMPORTANT
If your system is far from the calibration aims, you may need to repeat the
calibration process more than once to reach aim. See “Calibration Failure” on
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Calibration
The Calibration Procedure
To automatically calibrate a monitor:
1. Click Auto from the drop-down Display Mode menu if it isn’t already
selected.
NOTE
Auto mode is only available if you have connected the enable cable to your
computer.
2. Click the Calibrate icon.
If this is the first time that you have calibrated your current monitor, follow
the on-screen prompts to run a monitor evaluation. See “Monitor
Either the Calibration window opens or you are prompted to perform a
Dark Gain Correction to reset the sensor.
If you are prompted to perform a Dark Gain Correction:
a) Place the sensor on a dark surface and make sure that no light can
reach it. Do not attach the sensor to the monitor for this correction.
b) Click OK.
IMPORTANT
If the Dark Gain Correction fails, see “Dark Gain Correction Failure” on
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Calibration
The Calibration window opens when the dark correction is complete.
3. Position the sensor in the center of the patch.
4. Select Detailed if you want a detailed log to be written. (Recommended)
5. Cover the monitor and sensor with a dark cloth if you are not able to turn
off the room lights.
6. Click Start.
The sensor measures a series of patches. A log is written, target values
are displayed and points are plotted on a chromaticity diagram.
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3 3
Calibration
The process may take several minutes. You can click Pause if necessary.
NOTE
During the final stage of the calibration process, the gamut and log
information are hidden.
If automatic calibration is successful, automatic characterization begins
immediately after calibration is complete.
If automatic calibration was not successful, you may need to calibrate one or
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Calibration
Monitor Evaluation
The first time that you initiate an automatic calibration, the system performs an
evaluation of your monitor to determine if it can be automatically calibrated. If
you change monitors, the system runs the evaluation again when you initiate
automatic calibration.
To evaluate your monitor:
1. With an enable cable and sensor connected to your system and the Auto
mode enabled, click Calibrate.
The following window opens.
2. Click Yes.
IMPORTANT
You must select Yes and perform this evaluation in order to automatically
calibrate your monitor.
The following window opens.
3. Attach the sensor and click OK.
The system reads a series of patches and displays the results.
If your monitor can be automatically calibrated, the following message
appears. Click OK.
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Calibration
If your monitor cannot be calibrated, the following message appears. Click
Yes to retry.
You must switch to Manual display mode and manually calibrate your monitor
Manual Calibration
You can manually calibrate your display by adjusting the white and black
points from your monitor controls.
Use this method to manually calibrate your display if:
•
•
•
•
•
You are using an IRIX system
You are displaying your images on an HD/SD display
The enable cable does not recognize your monitor
You were unable to successfully calibrate your monitor automatically
You have an LCD monitor
Use the colorbars target provided with your Display Manager System to assist
you in making these adjustments.
If using a digital projector, set the projector to the manufacturer’s defaults.
To manually calibrate a monitor or HD/SD display:
1. Select Manual from the drop-down Display Mode menu, if it isn’t already
selected.
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Calibration
2. From your imaging product, display the colorbars target that came with the
Display Manager System. Adjust the display brightness and contrast until
the pluge target blends into the background.
The colorbars target file is found in Images/ColorBars.dpx.
3. Click the Calibrate icon.
The following window opens.
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Calibration
4. Place the sensor face down against a flat, opaque surface (not the screen)
for dark gain correction (zero reading). Click OK when ready.
This may take several seconds.
5. Click Measure Primaries.
6. Place the sensor over the red patch. Click OK to measure.
7. Repeat step 6 for the green and the blue patches.
8. Measure white luminance:
a) Place the sensor on the white patch.
b) Click Measure Once or Measure Continuous.
c) Examine the results and adjust your display, referring to the
instructions on the screen.
d) If you clicked Measure Once in step b, repeat steps b and c until a
pop-up informs you that white luminance is within tolerance.
NOTE
Leave the sensor attached.
9. Measure white chromaticity:
• Repeat steps 8b - 8d until white chromaticity is within tolerance.
10. Measure dark chromaticity:
• Repeat steps 8b - 8d until dark chromaticity is within tolerance.
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Calibration
11. Repeat steps 8, 9, and 10 to verify that all values are within tolerance.
NOTE
The plot indicates where you are versus aim. Use the magnify buttons
to zoom in and out on the plot.
12. Click Close.
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3 9
CHARACTERIZATION
Characterization determines the gamma response of the calibrated monitor
and tracks monitor primary colors. You should perform a characterization after
each calibration.
The system uses the .chr file written during characterization to create a LUT
that can be exported to any supported imaging products.
From the Characterize drop-down menu on the main window, choose either
Automatic Characterization or Manual Characterization Assistant.
Use Automatic Characterization if you performed automatic calibration or for
devices such as LCD or CRT displays that were NOT auto calibrated.
Use the Manual Characterization Assistant, if you performed a manual
calibration for an HD/SD display or digital projector.
Automatic Characterization
NOTE
If you successfully completed an automatic calibration, characterization will
To automatically characterize your monitor:
1. From the Characterize drop-down menu, click Automatic
Characterization.
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41
Characterization
Either the Characterization window opens or you are prompted to perform
a Dark Gain correction to reset the sensor.
If you are prompted to perform a Dark Gain Correction:
a) Place the sensor on a dark surface and make sure that no light can
reach it. Do not attach the sensor to the monitor for this correction.
b) Click OK.
IMPORTANT
If the Dark Gain Correction fails, see “Dark Gain Correction Failure” on
The Automatic Characterization window opens when the correction is
complete.
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Characterization
2. If the sensor is not already positioned, place it on the center of the screen.
3. Cover the monitor and sensor with a dark cloth if you are not able to turn
off the room lights.
4. Click Start.
The application reads a series of patches. This process may take several
minutes.
5. Click OK when you are notified that the characterization has finished.
You can now create and apply a LUT to emulate the print look or video look.
If you want more information on the quality of the calibration and
characterization, see “Verifying the Monitor Setup” on page 67
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Characterization
Manual Characterization
Use the Manual Characterization Assistant to characterize a display, such as
a digital projector or HD/SD display. Patches for use in characterizing HD/SD
displays and digital projectors are available on the KODAK Display Manager
System CD in the Images/Patches folder or can be downloaded from
patches can also be displayed from one of the following KODAK Video Tapes:
•
KODAK Display Manager Dual-Length Color Patch Set / D5-HD Tape
#D5C63M, 1080i/50
•
•
•
•
•
KODAK Display Manager Dual-Length Color Patch Set / D5-HD Tape
#D5C63M, 1080i/59.94
KODAK Display Manager Dual-Length Color Patch Set / Digital BETACAM
Tape #BCT-D64, NTSC
KODAK Display Manager Dual-Length Color Patch Set / Digital BETACAM
Tape #BCT-D64, PAL
KODAK Display Manager Dual-Length Color Patch Set / HDCAM Tape
#BCT-64HD, 1080i/50
KODAK Display Manager Dual-Length Color Patch Set / HDCAM Tape
#BCT-64HD, 1080i/59.94
The tapes contain 15 sec. patches for use with SEQUEL and X-RITE Sensors
and 40 sec. patches for use with the PHOTO RESEARCH PR-650 and
MINOLTA CS-100A Sensors. A slate indicates the start of each patch set.
NOTES:
•
•
•
•
If you use a KODAK Video Tape for manual characterization, the
measurements may be automatically entered into the Manual
Characterization Assistant (depending on the device you are using).
When manually characterizing, you can create and save characterization
templates containing set patches and then load these templates as
needed.
You can also load a .chr file into the Assistant, if you want to confirm
measurements on a set of patches, or to view data from a previous
characterization.
If you stop the characterization process before reading all of the color
patches, save your work by going to File > Save Interim
Characterization File. When you restart your work, load this file by going
to File > Load Interim Characterization File.
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Characterization
To manually characterize:
NOTE
As you enter data, the plots update. This allows you to track possible errors in
your data. Use the magnify buttons
plot.
to zoom in or out on the
1. Load the .dpx color patch files from the Display Manager System CD onto
your computer or download them from
The files are located in the Images/Patches folder.
OR
Load one of the KODAK Video Tapes.
2. From the Characterization drop-down menu on the main window, click
Manual Characterization Assistant.
The following window opens.
3. (Optional) Edit the table, if necessary. See “Editing a Characterization
4. Project the first color patch.
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4 5
Characterization
5. For an HD/SD device:
a) Position the sensor on the color patch.
b) Click one of the following options:
Automatically Measure from Sensor to allow the software to
automatically move through the color patches and enter the data. This
method can be used with either the .dpx images (if you create a
sequence from the images) or with a KODAK Video Tape. Within the
software that you are using to display the images, set the patch
duration to 15 seconds per patch (for use with X-RITE and SEQUEL
Sensors).
Measure from Sensor to allow the sensor to read and enter data from
one color patch at a time. You must click this button for each color
patch that is displayed.
6. For a digital projector:
a) Use a colorimeter or spectrophotometer to measure the patches.
We recommend the MINOLTA CS-100A or the PHOTO RESEARCH
PR-650.
b) Click one of the following options:
Automatically Measure from Sensor to allow the software to
automatically move through the color patches and enter the data (for
use with MINOLTA CS-100A or PHOTO RESEARCH PR-650 Devices
that are connected to the computer). If you’re using the MINOLTA CS-
100A or the PHOTO RESEARCH PR-650, set the patch duration to 40
seconds per patch. This method can be used with either the .dpx
images (if you create a 40 sec. per patch sequence from the images)
or with a KODAK Video Tape (using the 40 sec. sequence).
Measure from Sensor to allow the sensor to read and enter data from
one color patch at a time. You must click this button for each color
patch that is displayed.
NOTE
You can also import files created by the MINOLTA CS-100, MINOLTA CS-
100A, or PHOTO RESEARCH PR-650. Go to File > Import External
Measurements and import the appropriate file. The table is populated with
the data in the file.
7. When you are finished, click File > Save Characterization File.
IMPORTANT
To accurately emulate the print film look or video look on your display, you must
loadthischaracterizationfileintheViewer.ThisinformationisusedbytheViewer
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Characterization
Editing a Characterization Table
1. Add and remove rows of data as needed.
IMPORTANT
Do not add or remove rows if you are using a KODAK Video Tape or if you
are using the complete set of .dpx patches. The patches are supplied on
Right-click (WINDOWS, IRIX, LINUX Operating Systems) or Control +
click (MAC OS) on a line to display a pop-up menu from which you can
insert or remove rows.
2. Enter the desired code value for the row.
3. Use the drop-down menu in each color cell to identify the color.
NOTE
If you edit the table in this manner, you should save it as a template for later
use. Go to File > Save Template.
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4 7
Shortcut Keys for the Assistant
WINDOWS/IRIX/
LINUX
Task
MACINTOSH
Load Default
Ctrl + d
Ctrl + l
Ctrl + s
Command + d
Load Template
Command + l
Command + s
Save Characterization
File
Save Template
Close
Ctrl + t
Ctrl + q
Command + t
Command + q
Command + i
Command + r
Insert Row after Selected Ctrl + i
Remove Selected Row
Ctrl + r
NOTE
The MACINTOSH Command key looks like this:
VIEWING AND CUSTOMIZING LOOKS
After you have successfully calibrated and characterized your display, you can
view images with a specific look applied and export a LUT that contains the
look.
The LUT can be imported by supported imaging products to visualize real
time, or near real time, playback of images simulating a projected print or a
video look.
Opening the Viewer
To open the Viewer:
From the main window, click the Viewer icon.
You may be prompted to locate an image file to load into the Viewer.
A window similar to the following opens. The features that are available
depend on the type of license you purchased.
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49
Viewing and Customizing Looks
Using the Viewer
The Viewer appears at full screen size with the image at the top and a toolbar
at the bottom. To enlarge the viewing area, you can hide the toolbar.
To open What’s This topics in the Viewer, right-click (WINDOWS, IRIX,
LINUX) or Control + click (MACINTOSH) an item in the toolbar.
Global Options
At the right-hand side of the toolbar are common Viewer options available at
all times.
•
Quick Verify: Click to run a short verification to determine if your monitor
is still within calibration. This process reads a few color patches and
assesses against your original calibration aims. To perform a full
To Quick Verify:
1) Click Quick Verify on the Viewer toolbar.
The Viewer becomes a black patch and the following window opens.
2) Position the sensor over the patch and click OK.
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Viewing and Customizing Looks
When verification is complete a window similar to the following
appears.
3) Click OK.
A chart with the results is displayed.
This graph shows the tracking of the grayscale CCTs across the range
of code values that were measured. The red lines indicate the
tolerance levels that you entered on the setup window. These lines
appear if the scale warrants. See “Tolerances Setup” on page 28
•
•
Show Curves: Click to display the characteristic curves or neutral scale of
the look you’ve created.
Gamut Alert: Select this option if you want to be alerted to colors that are
within the print film or video gamut but are out of gamut for your display.
•
•
Factory Settings: Click to return to the default factory settings.
Hide Toolbar: Click to hide the toolbar. To reopen the toolbar, right-click
(WINDOWS, IRIX, LINUX Operating Systems) or Control + click
(MACINTOSH Operating System) in the image and select Show Viewer
Toolbar.
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Viewing and Customizing Looks
•
Load Transform: Click to open a browser window where you can select a
transform to apply to the image. A transform can be any of the following:
• characterization file (.chr)
• encrypted 3D LUT (.e3d)
• 3D LUT (.3dl)
• 1D LUT (.1dl)
• Wide Color Gamut encoded 3D LUT (.3dl)
For a digital projector or HD/SD display, load the characterization file that
Characterization” on page 44. The file that you load here should be the
characterization data that you want to use, or a previously created LUT
that you would like to apply to an image.
NOTE
1D LUTs provide a tonescale emulation of the projected print film.
3D LUTs provide both tonescale and color emulations.
NOTE
WideColorGamutencodedLUTsimportedtotheviewerwillnotlookcorrect.
These LUTs are not intended for preparing an image for display on a
computer monitor.
•
•
Build Transform: Click to apply the look to the image in the Viewer.
Export Transform: Click to save a LUT to a file. You can export the
following transform types, depending on the purchased license:
• encrypted 3D LUT (.e3d)
• 3D LUT (.3dl)
• 1D LUT (.1dl)
• Wide Color Gamut encoded 3D LUT (.3dl)
• Digital Projector Format LUT (.LUT-CLUT)
• KODAK VISION2 HD System LUT (.xml)
•
•
Save Settings: Click to save the settings for the look you create. If you
save as kdm.ini, the system loads those settings when it opens.
Close Viewer: Click to close the Viewer and return to the main window.
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Viewing and Customizing Looks
Playback Controls
The Playback Controls are at the bottom right of the Toolbar. These controls
allow you to move forward and backward through images in a directory and to
compare the effect of different LUTs.
NOTE
With the exception of Compare Mode, playback controls are disabled if you are
not working with a sequence of images.
Compare Mode
Step back
Play
Frame increment
Stop/Pause
Step forward
•
Compare Mode—Click to display a list of ways to compare two LUTs.
When you load a transform (see below), then choose a Compare Mode,
swiping your mouse across the screen displays both the original and the
new look side by side (Hor. Swipe), top and bottom (Ver. Swipe), or in a
horizontal or vertical butterfly view.
NOTE
Click No compare to turn off Compare Mode.
Click Reset Image to change the comparison image.
Click Reset Transform to use the current transform as the comparison
transform.
•
•
Step back—Click to step back one frame.
Play—Click to move the number of frames indicated by the Frame
Increment.
•
•
•
Stop/Pause—Click to pause the playback.
Step forward—Click to step forward one frame.
Frame increment—Enter the increment of frames to display.
NOTE
Playback speed is dependent on the computer system.
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Viewing and Customizing Looks
Toolbar Information
Image information appears in the lower-left corner of the Viewer toolbar.
RGB values after a
LUT is applied
Coordinates for the
cursor position
RGB values before a
LUT is applied
Path to the .chr file being used
with the image
Pop-up Options
Right-click (WINDOWS, IRIX, LINUX Operating Systems) or Control + click
(MACINTOSH Operating System) in the image for a pop-up menu which
includes access to some of the global options.
5 4
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Viewing and Customizing Looks
Viewer Shortcut Keys
Use the following shortcut keys to control the Viewer.
Task
Key
Keep aspect ratio
k
q
s
c
g
t
Quit
Scale to fit
Toggle Center on and off
Toggle the display of out-of-gamut colors on and off
Toggle the display of the toolbar
NOTE
To use the Viewer Shortcut keys, first click the mouse within the image to make
it the active area.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
5 5
Viewing and Customizing Looks
Creating a Print Film Look
Selections pertinent to emulating print film are available in the Print Film tab.
To create a print film look:
3. Click Load Transform to select and load the appropriate .chr transform.
4. Click the Print Film tab if it is not already selected.
NOTE
This tab is only available if you load a .chr file.
5. Select the appropriate settings.
• Printer Lights: Adjust the printer lights with the slider bars.
• LAD values: Enter the desired LAD values.
• Status A: If you measure the Status A densities of your LAD patch, you
can enter those values here. The default values shown are the typical
Status A aim values for LAD.
• Film: Select the print film type that you want to emulate. Load a DLogE
file to further refine your match using the control strip data from your
print process. The DLogE file should be an ascii file with 21 rows x 3
columns corresponding to the patches on an ECP-2D strip. Comments
may be included in the file preceded by the # sign. Files are typically
denoted with a .dle extension. Note that once a DLogE file is entered,
the print film type selection will read "User".
• Use Print Film Transform: Select to enable the print film look and
apply the selections that you make on this tab. (If unchecked, the
settings selected on the Video tab are used.)
• Use Gamut Remap: Select to enable gamut remapping. Select the type
of remapping on the Advanced tab. To disable gamut remap, deselect
6. Click Build Transform to display your changes in the Viewer.
7. Click Export Transform to save the LUT you have created.
5 6
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Viewing and Customizing Looks
Creating a Video Look
To properly emulate the video look, you must use the Video tab.
To create a video look:
3. Click Load Transform to select and load the appropriate .chr transform.
4. Click the Video tab.
NOTE
This tab is only available if you load a .chr transform.
5. Select the appropriate settings.
• Aim Gamma Settings: Type the appropriate value to set the display on
a specific gamma. (You can only adjust this setting when the color
space is set to User Defined.)
• Color Space Settings: Select the appropriate color space from the
drop-down list — CCIR 709 or SMPTE RP145. Or select User Defined
from the list and type in the specific values.
• Use Video Transform: This option is only available if you have both a
Print Film Edition and VISION2 HD System Edition. Select this option to
enable the video look and apply the selections that you make on this tab.
(If unchecked, the settings selected on the Print Film tab are used.)
• Use Gamut Remap: Select to enable gamut remapping. Select the type
of remapping on the Advanced tab. To disable gamut remap, deselect
6. Click Build Transform to display your changes in the Viewer.
7. Click Export Transform to save the LUT you have created.
NOTE
If using the KODAK VISION2 HD System, use the default values when
working with typical NTSC HD displays. To export transforms for use in the
KODAK VISION2 HD System Digital Processor, select the appropriate
exportation file type to ensure that the correct encrypted xml file is created.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
5 7
Viewing and Customizing Looks
Loading an Image
1. From the Images tab in the Viewer toolbar, click Load Image. Browse for
and select an image.
The system recognizes .dpx or .cin images when creating a print look; and
.tif (with video content) when creating a video look.
The image appears in the Viewer with the look that was defined by the
2. From the Image Settings pane, select how you want the image to appear
in the Viewer.
• Center: Select to center the image on the screen.
• Scale To Fit: Select to allow the image to fill the screen.
• Keep Aspect Ratio: Select along with Scale To Fit so that the image
fills as much of the screen as possible while keeping its aspect ratio.
• Zoom Factor: Select a value from the drop-down menu to display the
image at various percentages. This option is not available if the Scale to
Fit option is selected.
• Background Color: Click to display a color selection window where you
can choose a background color for the Viewer.
NOTE
Many of these options are also available in the pop-up Options window
5 8
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Viewing and Customizing Looks
Advanced Options
The Advanced tab of the Viewer contains options for further refining the
viewed and exported looks.
Framing Settings
On the Advanced tab of the Viewer, click Framing to select an aspect ratio.
Use the drop-down menu to select the appropriate aspect ratio of your final
output.
A dotted line appears on the image indicating the portion of the image
included in that frame size.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
5 9
Viewing and Customizing Looks
Gamut Remap Settings
On the Advanced tab, click Gamut Remap to select the type of remapping.
Mode
Description
Constant Hue with Within each hue plane, colors are gamut mapped towards
Variable Lightness the Lightness axis. The aim on the axis is dependent on the
Target
(Recommended)
position of the color relative to the maximum Chroma point in
that hue plane.
Constant Hue and
Within each hue plane, out of gamut colors are mapped to
Lightness (Version the gamut boundary towards a point on the Lightness axis
2.x Default)
with the same Lightness (L*) as the original color.
6 0
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Viewing and Customizing Looks
Transform Bit Depth
On the Advanced tab, click Transform Bit Depth to increase or decrease the
input and output bit depth. The following options are displayed.
From the Input Bit Depth drop-down menu, select the actual bit depth of the
image you are viewing.
From the Output Bit Depth drop-down menu, select the bit depth that you
want to view the image at.
For most Display Manager System uses, keep the bit depths at 10-bit input
and 10-bit output or 8-bit input and 8-bit output.
For .tif images, 8-bit input and 8-bit output are common. You may, however
want to use 8-bit input and 10-bit output. The bit depth is automatically set to
8-bit input and 8-bit output for 8-bit .tif and 16-bit input and 16-bit output for
16-bit .tif.
For .cin or .dpx images, 10-bit input and 10-bit output are common. You may,
however, want to use 10-bit input and 12-bit output. The bit depth is
automatically set to 10-bit input and 10-bit output on loading a .cin or .dpx
image.
This feature is also useful if your imaging application software supports
unusual bit depths.
NOTE
If you select the Wide Color Gamut encoded LUT for export, the bit depth is
overridden to 10-bit input and 12-bit output.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
6 1
Viewing and Customizing Looks
Surround Compensation
On the Advanced tab, click Surround Compensation to correct for the
effects of viewing in a suboptimal environment. The following option is
displayed.
Click and drag the slider bar to match the lighting conditions in your area.
IMPORTANT
Work in a dark environment whenever possible.
6 2
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Viewing and Customizing Looks
Recorder Compensation
The state of your recorder impacts the look of the final print. Use the recorder
compensation feature to enter information about the specific recorder state so
that the impact of this device is included in the print emulation shown through
the KODAK Display Manager System. There are two options:
•
•
Neutral-based compensation
Neutral- and color-based compensation
1. Record a test strip of neutrals or of colors and neutrals onto EASTMAN
Color Intermediate Stocks - either 5242 or 2242.
NOTE
For neutral compensation, use your standard recorder control strip.
Forneutralandcolor-basedcompensation,recordthepatchframessupplied
on the KODAK Display Manager System CD or at http://www.kodak.com/
2. Measure the Status M values of the patches.
Neutral-based compensation: measure all patches on control strip.
Neutral-or color-based compensation: measure 116 patches.
3. Prepare a text file (.txt).
Example file (neutral-based compensation)
Column 1 is the neutral code value. Columns 2 - 4 are Status M values.
For comments, start a line with a #, then enter the comment.
DMIN
0
0.085
0.085
0.165
0.263
0.356
0.447
0.533
0.621
0.71
0.549
0.55
0.621
0.622
0.748
0.839
0.948
1.061
1.157
1.258
1.362
1.47
51
0.623
0.716
0.838
0.957
1.049
1.135
1.229
1.323
1.42
102
153
204
255
306
357
408
459
510
714
...
0.801
0.894
0.989
1.371
...
1.577
1.68
1.512
1.896
...
2.099
...
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
6 3
Viewing and Customizing Looks
Example file (neutral- and color-based compensation).
Columns 1 - 3 are RGB code values. Columns 4 - 6 are Status M values.
For comments, start a line with a #, then enter the comment.
DMIN
20
DMIN
10
DMIN
0
0.085
0.085
0.165
0.263
0.356
0.447
0.533
0.621
0.71
0.549
0.55
0.621
0.622
0.748
0.839
0.948
1.061
1.157
1.258
1.362
1.47
71
61
51
0.623
0.716
0.838
0.957
1.049
1.135
1.229
1.323
1.42
122
173
224
275
326
377
428
479
...
112
163
214
265
316
367
418
469
...
102
153
204
255
306
357
408
459
...
0.801
0.894
...
1.577
...
...
NOTE
A template including the code values of the provided patches is supplied on
the CD or at http://www.kodak.com/US/en/motion/products/dlmanage/
4. On the Advanced tab, click Recorder Compensation.
5. Click Load Recorder, then locate and select the appropriate .txt file.
NOTE
The Display Manager System uses this information when applying a LUT to
an image in the viewer. This compensates for the difference between the
recorder and an aim recorder.
6. Click Reset to clear the text field.
6 4
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Viewing and Customizing Looks
Transform Rescale
On the Advanced tab, click Transform Rescale to control how the range of
the display is used. The following options are displayed.
Select No Rescale (Print Film Default) if you are creating a print film look.
If you select Rescale Minimum Tonescale to Lowest Drive Value, your
blacks will be blacker but some other colors will not be displayed accurately.
If you select Rescale to Video Legal Using Clipping, code values less than
64 move to 64, and code values greater than 940 move to 940.
If you select Rescale to Video Legal by Resizing Range, code values from 0
- 1023 compress to 64 - 940.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
6 5
VERIFYING
The Verify feature allows you to view additional information on the success of
the monitor setup and print simulation. Verification provides a means for
tracking trends in the data, such as sensor or monitor degradations.
IMPORTANT
You should perform a verification whenever your images do not look right. You
cannot verify on an HD/SD display or digital projector.
If the verification fails, you may need to replace the sensor or the monitor.
To quickly check to see if your monitor is starting to drift out of calibration, use
the Quick Verify feature on the Viewer window. See “Global Options” on
Verifying the Monitor Setup
To verify monitor setup:
1. From the main window, click the Verify icon.
Either the Verification window opens or you are prompted to perform a
Dark Gain correction to reset the sensor.
If you are prompted to perform a Dark Gain Correction:
a) Place the sensor on a dark surface and make sure that no light can
reach it. Do not attach the sensor to the monitor for this correction.
b) Click OK.
IMPORTANT
If the Dark Gain Correction fails, see “Dark Gain Correction Failure” on
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
67
Verifying
The Verification window opens when the correction is complete.
2. If the sensor is not already in place, position it in the center of the screen.
3. Cover the monitor and sensor with a dark cloth if you are not able to turn
off the room lights.
4. Click Verify Monitor Setup on the Verification window.
The Display Manager System projects and measures a series of colored
patches.
When verification is complete, the Verify Monitor Setup button changes
to read Monitor Setup Results and you are notified if verification was
successful.
6 8
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Verifying
5. To view the results, click Monitor Setup Results.
Three graphs are displayed.
• Correlated Color Temperature: This graph shows the tracking of the
grayscale CCTs across the range of code values that were measured.
The red lines indicate the tolerance levels that you entered on the Setup
window. These lines appear if the scale warrants. See “Tolerances
• Chromaticity xy Chart: This diagram shows the tolerance you defined.
The Xs indicate the chromaticities over a range of gray patches and
indicate how well your neutrals track.
• Gamma Verification Chart: This chart shows the gamma response of
the monitor for each R, G, B, N series. Ideally the values fall in a straight
line. Click the color channel that you want to view.
If the values are out of tolerance, you can continue to use your monitor as long
as the colors are acceptable to you.
The system writes a verification results file containing the xyY and color
temperature data for each of the measured patches. The file is time and date
stamped so that you can plot trends over time, if desired. To view the
verification files, in the Display Manager system main folder go to
data > verify.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
6 9
Verifying
Verifying the Print Film Look
Verify the print film look to measure the quality of the print film simulation.
NOTE
This feature is not available in the VISION2 HD System Edition. Also, you cannot
verify a print film look created for a digital projector or HD/SD display.
To verify the print film look:
1. From the main window, click the Verify icon.
Either the Verification window opens or you are prompted to perform a
Dark Gain correction to reset the sensor.
If you are prompted to perform a Dark Gain Correction:
a) Place the sensor on a dark surface and make sure that no light can
reach it. Do not attach the sensor to the monitor for this correction.
b) Click OK.
IMPORTANT
If the Dark Gain Correction fails, see “Dark Gain Correction Failure” on
7 0
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Verifying
The Verification window opens when the correction is complete.
2. If the sensor is not already in place, position it in the center of the screen.
3. Cover the monitor and sensor with a dark cloth if you are not able to turn
off the room lights.
4. Click Verify Print Film Look on the Verification window.
The Display Manager System projects and measures a series of patches.
When verification is complete, the Verify Print Film Look button changes
to read Print Film Look Results, and you are notified if verification was
successful.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
7 1
Verifying
5. To view the results, click Print Film Look Results.
A graph is displayed.
The graph shows a CIELab a* b* plot. If there is a perfect match, the X and dot
are on top of each other. The longer the distance between the X and the dot,
the further apart the match is.
Click the color group buttons at the bottom to view only the data for that color
group.
NOTE
Out-of-gamut colors will have longer lines.
7 2
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Verifying
Verification Logs
Verification logs are date and time stamped. All files are named
VerifySetup_Results or VerifyPrintFilm_Results.
To view the verification files, in the Display Manager system main folder go to
data > verify.
You can view these text files with applications such as WordPad or Excel. To
identify trends in data, view the log files over a period of time. Open earlier
versions of the log file and compare the data points to determine when values
began to fail.
If verification results slowly degrade over time, the sensor or monitor may be
failing due to age.
If verification suddenly fails, the sensor may be damaged or might have fallen
off during verification.
Print Film Look Verification Log File
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
7 3
Verifying
Monitor Setup Verification Log
7 4
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Troubleshooting
Calibration Failure
•
Make sure that you are using a VGA monitor cable and that all the pins are
present.
•
If the monitor settings need a lot of adjustment to reach aim, you may need
to repeat the calibration process several times to bring the monitor into
tolerances. To more quickly bring the monitor settings closer to aim, reset
the monitor to factory defaults as described in your monitor user manual.
Track the progress of each calibration by observing the Current and
Target Values displayed on the Calibration window. Repeat the
calibration process as many times as necessary as long as the calibration
points continue to move toward aim. If the points stop moving or they
oscillate above and below aim, you may need to replace your monitor.
Contact your support representative.
•
When repeating a failed calibration, make sure that the:
− Room is dimly lit or a dark cloth is placed over the monitor
− Sensor is securely attached to the monitor if the sensor has suction
cups
− Enable cable and sensor connections are properly made
− Dark Gain Correction of the sensor is performed correctly
− Monitor is warmed up properly
− Monitor is a type that is supported for auto-calibration
− Monitor is in Expert mode, if available
− Super Bright mode is disabled, if available
− Picture effect is set to Dynamic, if available
− Timing for reading patches is set properly. We recommend that you
use the default settings. If you have shortened the timing to increase
calibration speed, the readings from the sensor may have some
erroneous points. Go to Options > Setup. From the Times tab, set
Colors to 4 and Patches to 1.
•
Make sure to uninstall any other monitor calibration software that you
might have on your system.
7 6
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Troubleshooting
Characterization Failure
•
Repeat the characterization making sure that the:
− Room is dimly lit or a dark cloth is placed over the monitor
− Sensor is securely attached to the monitor if the sensor has suction
cups
− Enable cable and the sensor connections are properly made
− Dark Gain Correction of the sensor is performed correctly
− Monitor is warmed up properly
•
The monitor brightness may be set too low. Use the factory default setting.
If that fails, increase the brightness.
Verification Failure
•
Repeat the calibration and characterization making sure that the:
− Room is dimly lit or a dark cloth is placed over the monitor
− Sensor is attached to the monitor securely if the sensor has suction
cups
− Enable cable and sensor connections are properly made
− Dark Gain Correction of the sensor is performed correctly
− Monitor is warmed up properly
•
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
7 7
Troubleshooting
Dark Gain Correction Failure
Dark Gain Correction may fail if light enters the sensor. The following
message is displayed.
1. Click OK on this message and also on the initialization message that
appears next.
2. Restart the process that you were running when you were prompted to
perform the Dark Gain Correction - either Calibrate, Characterize or Verify.
3. When prompted for the Dark Gain Correction, place the sensor on a dark
surface where light cannot reach it.
Do not attach it to the monitor.
Cover it with a dark cloth, if necessary.
4. Repeat the Dark Gain Correction.
5. If the previous steps failed to fix the problem, contact KODAK Service and
Support (email address: tac@ei.kodak.com).
NOTE
Some hardware configurations may not be supported.
7 8
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Troubleshooting
Sensor Does Not Adhere to Screen
X-RITE DTP92+EK
•
Firmly push on the sides of the sensor so that the spring-loaded suction
cup slides forward onto the screen. When the suction cup is firmly in place,
release the sensor.
•
•
You may need to moisten the suction cup by wiping it with a tissue lightly
dampened with water. Or fog the suction cup by breathing on it.
You may need to clean the monitor and suction cup, if the sensor does not
firmly attach. Clean the suction cup with a clean dry cloth.
IMPORTANT
Do not apply a cleanser to the suction cup.
To clean the monitor, use a soft, lint-free paper or cloth lightly dampened
with a mild glass cleaner.
SEQUEL Sensor
•
•
When attaching the sensor, press firmly but not too hard.
Clean the sensor. Use alcohol and a lint-free cloth to clean the suction
cups and sensor face.
•
•
Clean the monitor. Use a monitor cleaning kit or a soft cloth with a solution
designed to clean monitors.
If the sensor continues to fall off, lightly wet the suction cups with alcohol
before attaching to the monitor.
Sensor Needs to be Replaced
X-RITE Sensors
Contact X-Rite if your sensor fails. Call 1-800-248-9748.
SEQUEL Sensors
If you are prompted to replace the sensor, contact your service representative.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
7 9
Troubleshooting
Sensor Fails to Initialize
If you get a message that the sensor failed to initialize:
•
Go to Options > Setup. From the Sensor tab, make sure that you
selected the appropriate sensor and connection type.
•
•
•
Check the connection.
Make sure that the USB or serial port is live and functional.
It is possible that your USB hub is not compatible with the sensor. Connect
the sensor directly to the computer to verify.
•
•
If you are using WINDOWS 2000 Operating System and have unplugged
the sensor, you must restart your computer.
If you extended the length of the cable, make sure that you have used no
more than five repeaters. Repeaters can be placed every 5 meters
(16.4 feet) for a total length of 30 meters (98.4 feet). Instead of using
repeaters, use a Port Authority Device and extension cable.
•
•
(WINDOWS Operating System only) Check your hardware devices.
From the WINDOWS Start button, click Settings > Control Panel >
System > General tab > Device Manager. Make sure the sensor is
installed and does not have an orange flag next to its name in the
directory. If so, reinstall the software. Your license key will continue to work
if you reinstall the software.
If your WINDOWS Operating System cannot locate the drivers, go to:
C:\Program Files\Kodak\KODAK Display Manager System\
SequelDrivers
OR
C:\Program Files\Kodak\KODAK Display Manager System\
XRiteDrivers
USB Device Is Not Recognized
This can happen with a LINUX or WINDOWS Operating System when you
restart your computer and the device is connected.
With your computer running, unplug the device and plug it back in.
8 0
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Troubleshooting
Enable Cable Does Not Recognize the Monitor
•
•
•
Check the connection.
Make sure that the USB port is live and functional.
If you are using WINDOWS 2000 and have unplugged the enable cable,
you must restart your computer.
•
(WINDOWS Operating System only) Check your hardware devices.
From the WINDOWS Start button, click Settings > Control Panel >
System > General tab > Device Manager. Make sure the enable cable is
installed and does not have an orange flag next to its name in the
directory. If so, reinstall the software from the installation CD or the Web.
Your license key will continue to work if you reinstall the software.
•
•
Make sure that you are using a VGA monitor cable and that all the pins are
in place.
If your monitor still does not recognize the enable cable, you may have a
monitor that is not supported by the Display Manager System. You must
perform a manual calibration instead of an automatic calibration. See
License Has Expired
•
If your license has expired, go to the Web site
www.kodak.com/go/dm to locate the phone number for a support
representative in your region.
•
•
If you are prompted that your license has expired but the time period has
not expired, send an email to tac@ei.kodak.com.
Contact tac@ei.kodak.com if your license is invalidated after one of these
events:
− You changed your Ethernet controller.
− You moved the application to a different machine. The Display
Manager System only launches on the system for which the license
was first generated.
License File Does Not Work
Make sure the license file (.lic) is in the correct location.
•
•
•
(WINDOWS Operating Systems): C:\Program Files\KODAK\KODAK
Display Manager System\Licenses
(MACINTOSH Operating Systems): Applications/KODAK Display
Manager System/Licenses
(LINUX and IRIX Operating Systems) /usr/local/KDM/Licenses
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
8 1
Troubleshooting
Unable to Load an Image
•
The Display Manager System only recognizes .dpx, .cin, and .tif (with
video content) image files.
•
Your image file may be corrupt or may not be a true .dpx, .cin, or .tif (with
video content) file.
Unable to Load a Transform
•
Make sure that the transform has the correct extension (.e3d, .3dl, .1dl, or
.chr).
•
The LUT may be corrupt. To regenerate and reload the LUT:
1. From the Viewer toolbar, click Load Transform and select the
appropriate .chr file needed to generate the LUT.
2. Adjust the settings as necessary.
3. Click Build Transform.
4. Click Export Transform and select the name of the LUT to generate.
5. Click Load Transform and select the new LUT that you generated.
•
The .chr file may be corrupt. Perform another characterization to create a
new file.
Unable to Build or Export a Transform
If you receive an error message when you click Export Transform in the
Viewer toolbar, you may not have permission to write to the LUT working
directory.
1. Click Options > Setup. From the Directories tab, make sure you entered
the correct path.
2. Change the path, if necessary.
Calibrate Icon Is Not Available
The Calibrate icon is only available if you have attached an enable cable.
8 2
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Troubleshooting
Imaging Product Cannot Find LUT
If your imaging product cannot find the LUT that you created from the Viewer:
•
•
•
Make sure you have the proper path set. Go to Options > Setup and from
the Directories tab set the path.
Make sure your imaging product is supported by the Display Manager
System.
Refer to your imaging product user guide for directions on LUTs generated
by the Display Manager System.
My 1D LUT Does Not Match my 3D LUT
1D LUTs provide a tonescale emulation of the projected print film.
3D LUTs provide both tonescale and color emulations.
My Wide Color Gamut Encoded LUT Does Not Look
Correct
Wide Color Gamut encoded LUTs imported to the viewer will not look correct.
These LUTs are not intended for preparing an image for display on a computer
monitor.
Problem with the .ini File
When opening the Display Manager System, you may see an error message
for the .ini file if you have not yet saved any settings for the first time.
If you have saved your settings but you still get a message that there is a
problem with the .ini file:
1. Click OK.
The system opens using the factory defaults for any unknown values.
2. Reset and save your system options. See “Saving and Loading Settings”
3. If necessary, reset and save your Viewer settings. See “Viewing and
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
8 3
Troubleshooting
Image Does Not Appear in the Viewer
•
•
Your graphics card may need to be upgraded.
(WINDOWS only) Verify that you have the latest driver for your graphics
card.
1. Right-click the screen. From the pop-up menu click Properties.
2. On the Settings tab, click Advanced.
3. Click the Adapter tab to view information about your graphics card.
4. Go to the manufacturer’s Web site and make sure you have the latest
driver.
•
(WINDOWS only) You may need to adjust the acceleration of your
graphics card.
1. Close the Display Manager System.
2. Right-click the screen. From the pop-up menu, click Properties.
3. On the Settings tab, click Advanced.
4. Click the Troubleshooting tab.
5. Move the accelerator indicator back one stop to a slower setting. The
default setting is Full.
6. Click OK.
7. Open the Display Manager System and load an image in the Viewer.
8. If the problem was not corrected, close the Display Manager System
and repeat steps 2-7 until the problem is corrected. The goal is to keep
8 4
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Troubleshooting
the acceleration indicator as far to the right as possible and still have
the Viewer work.
IMPORTANT
Do not use the lowest setting. Your computer may become unusably slow.
Purchase a new video card if the next to the slowest setting does not work.
NOTE
(WINDOWS XP OS only) If slowing the acceleration does not solve the
problem, deselect Enable write combining.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
8 5
Troubleshooting
Results Are Not as Expected
•
•
•
•
•
•
•
To make use of all the Display Manager System features, make sure that
you are using a VGA monitor cable with all the pins in position.
The environment might not have been dark enough. Repeat the calibration
and characterization with a dark cloth covering the monitor.
The sensor, if it has suction cups, might have fallen off during the process.
Repeat the process making sure that the sensor is firmly attached.
Make sure that the Dark Gain Correction of the sensor is performed
correctly.
Make sure that your monitor color quality is set to the highest possible
value (at least 16 bits).
Make sure to warm up the monitor for a least one hour before using the
Display Manager System.
Make sure that the screen saver and power save mode do not come on
during the process.
•
•
Set your screen resolution to at least 1280 x 1024.
If using an HD/SD display or digital projector, use the Manual
Characterization Assistant to accurately profile the display. See “Manual
•
•
Input all data available for your specific process. See “Setting the Options”
Your scanner or recorder might be out of calibration.
Characterize and Verify Controls Are Not Visible
on LINUX System
Configure your panel (taskbar) to allow other windows to appear above. Or set
your panel to autohide.
8 6
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Troubleshooting
Super Bright Capable Display will not Calibrate
You must turn off the Super Bright mode by pressing the SB button on the
front of the monitor until the screen reads “Super Bright Mode Off”.
Difficulty Navigating the Online User’s Guide
When you press the Help button, a PDF file opens. Here are some tips to help
you access the information you need.
Hot Links
Cross references
Click any underlined blue cross reference entry to go to
that page.
(page 15)
Web Links
Click any underlined blue Web address to open your
browser and go to that Web site. When the
Web link, it turns into
is over a
.
w
w
Bookmarks
Click any Bookmark
in the left navigation
window to open that
page.
Table of Contents
Click any entry to go
to that page.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
8 7
APPENDIX A
SYSTEM REQUIREMENTS
WINDOWS Operating System Minimum
Requirements
Operating System: WINDOWS 2000 or XP
Processor: Minimum PENTIUM 3; PENTIUM 4 or equivalent is
recommended
RAM: Minimum 256 MB RAM; 512 MB of RAM is recommended
Hard Drive Space: 100 MB of available space on hard drive for the
application; additional space as needed for storing images
Video Card: 24-bit video/graphic card, 3D acceleration capability with at least
32 MB of RAM; OpenGL compliant
Monitor Resolution: 1280 x 1024 is recommended
Drives: CD-ROM drive
I/O: 2 available USB ports
NIC Card: (Network Interface Card)
MAC OS Minimum Requirements
Operating System: OS 10.2 or higher
Processor: G4 or higher is recommended
RAM: Minimum 256 MB RAM; 512 MB of RAM is recommended
Hard Drive Space: 100 MB of available space on hard drive for the
application; additional space as needed for storing images
Video Card: 24-bit video/graphic card, 3D acceleration capability with at least
32 MB of RAM; OpenGL compliant
Monitor Resolution: 1280 x 1024 is recommended
Drives: CD-ROM drive
I/O: 2 available USB ports
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
89
Appendix A System Requirements
NIC Card: (Network Interface Card)
IRIX Operating System Minimum Requirements
Operating System: IRIX 6.5 or higher
Processor: N 32 compliant
RAM: Minimum 256 MB RAM; 512 MB of RAM is recommended
Hard Drive Space: 100 MB of available space on hard drive for the
application; additional space as needed for storing images
Video Card: 24-bit video/graphic card, 3D acceleration capability with at least
32 MB of RAM; OpenGL compliant
Monitor Resolution: 1280 x 1024 is recommended
Drives: CD-ROM drive
I/O: Serial port
LINUX Operating System Minimum Requirements
Operating System: Red Hat 9 or higher
Processor: Minimum PENTIUM 3; PENTIUM 4 or equivalent is
recommended
RAM: Minimum 256 MB RAM; 512 MB of RAM is recommended
Hard Drive Space: 100 MB of available space on hard drive for the
application; additional space as needed for storing images
Video Card: 24-bit video/graphic card, 3D acceleration capability with at least
32 MB of RAM; OpenGL compliant
Monitor Resolution: 1280 x 1024 is recommended
Drives: CD-ROM drive
I/O: 2 available USB ports
NIC Card: (Network Interface Card)
9 0
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Appendix A System Requirements
Additional Software and Hardware
ADOBE ACROBAT Reader: To view and print the User Guide and Quick
Start Guide on WINDOWS, MACINTOSH or LINUX systems. IRIX systems
require Acrobat Reader 3.0.
USB Hub: If you do not have enough available USB ports
Port Authority Device: To extend the length of USB cables
Colorimeter or Spectrophotometer: For measuring patches as displayed
from a digital projector. The MINOLTA CS-100A or the PHOTO RESEARCH
PR-650 are recommended.
VGA cable: (from the display to the enable cable) To enable you to take
advantage of all the Display Manager System features
Video Tapes: Video tapes with color patches, available from Kodak, can be
used to assist in manual characterization.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
9 1
APPENDIX B
SHORTCUT KEYS
Display Manager System Shortcut Keys
WINDOWS/IRIX/
LINUX OS
Task
MACINTOSH OS
Open Help
Enable What’s This
F1
F1
Not available
Shift + F1
(WINDOWS OS only)
Manual Characterization Assistant Shortcut Keys
WINDOWS/IRIX/
Task
MACINTOSH OS
LINUX OS
Load Default
Ctrl + d
Ctrl + l
Ctrl + s
Command + d
Command + l
Command + s
Load Template
Save Characterization
File
Save Template
Close
Ctrl + t
Ctrl + q
Command + t
Command + q
Command + i
Command + r
Insert Row after Selected Ctrl + i
Remove Selected Row
Ctrl + r
NOTE
The MACINTOSH Command key looks like this:
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
93
Appendix B Shor tcut Keys
Viewer Shortcut Keys
Task
Key
Keep aspect ratio
Quit
k
q
s
c
g
t
Scale to fit
Toggle Center on and off
Toggle the display of out-of-gamut colors on and off
Toggle the display of the toolbar on and off
9 4
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
APPENDIX C
REGULATORY INFORMATION
This is a class A product. In a domestic environment this product may cause
radio interference in which case the user may be required to take adequate
measures.
NOTE: This equipment has been tested and found to comply with the limits for
a Class A digital device, pursuant to part 15 of the FCC rules. These limits are
designed to provide reasonable protection against harmful interference when
the equipment is operated in a commercial environment. This equipment
generates, uses and can radiate radio frequency energy and, if not installed
and used in accordance with the instruction manual, may cause harmful
interference to radio communications. Operation of this equipment in a
residential area is likely to cause harmful interference in which case the user
will be required to correct the interference at his own expense.
This class A digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du
Canada.
This is a Class A product based on the standard of the Voluntary Control
Council for Interference by Information Technology Equipment (VCCI). If this
equipment is used in a domestic environment, radio disturbance may arise.
When such trouble occurs, the user may be required to take corrective
actions.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
95
Appendix C Regulatory
EU WEEE
In the European Union, this symbol indicates that
when the last user wishes to discard this product, it
must be sent to appropriate facilities for recovery
and recycling. Contact your local Kodak
representative or refer to www.kodak.com/go/
recycle for additional information on the collection
and recovery programs available for this product.
9 6
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
GLOSSARY
1D LUT
3D LUT
(1 dimensional look up table) A data structure that translates an
input value to an output value. In Display Manager a 1D LUT can
be exported to translate from printing density to display drive
values.
(3 dimensional look up table) A mathematical description of colors
with red, green, and blue on the x, y, and z axis, respectively,
forming a cube. The Display Manager System creates 3D LUTS
based on the characterization of your display. You can export 3D
LUTs for use by supported imaging products.
bias
A monitor setting that determines the electrical current to the
monitor.
black point
The darkest color that a display device can display. Not necessarily
true black.
brightness
calibration
The measurement of both the saturation and luminance of a color.
The process of adjusting the monitor’s white and black points as
close as possible to aim points. During automatic calibration in the
Display Manager System, these adjustments are done via the
enable cable. During manual calibration, the user makes the
adjustments from the monitor controls. Calibration is a foundation
for creating a profile of the display.
characterization
The measurement of the color characteristics of a display. This
results in the creation of a .chr file that describes how the device
displays colors. The Display Manager System Viewer uses this file
to create a LUT. Also referred to as profiling.
chromaticity
coordinates
Coordinates that specify position in a chromaticity diagram. The
chromaticity coordinates of a stimulus are derived from its
tristimulus values by taking the ratio of each of the tristimulus
values to their sum; i.e. x=X/X+Y+Z, y=Y/X+Y+Z, where x and y
are the chromaticity coordinates and X,Y, and Z the tristimulus
values.
chromaticity
diagram
A two dimensional plot of (three dimensional) color space depicting
the (three dimensional) relationship among colors perceived by the
normal human visual system. This plot most commonly includes a
"horseshoe" which defines the spectral locus (the range of colors
visible to the human observer). Colors are indicated on the plot by
x, y chromaticity coordinates which correlate to color attributes.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
97
Glossary
CIELab
A device independent color space that defines colors according to
lightness (L), redness/greenness (a), and yellowness/blueness (b).
color gamut
See gamut.
colorbars target
A .dpx file provided with the Display Manager System that can be
used to manually calibrate an HD/SD display. Project this file
through your imaging software to adjust the brightness and pluge
of your monitor. This file is located in the Images folder.
colorimeter
A measurement device that measures luminance, Y and
chromaticity, x, y.
correlated color
temperature
(CCT) A measurement in Kelvins of the color appearance of a light
source.
dark gain correction
display aim
An adjustment to the sensor that eliminates inherent noise.
The desired brightness or luminance values that you want
calibration to match for your display. Set these values from the
Options > Setup window.
display mode
The type of calibration you perform in the Display Manager
System, Auto or Manual. During automatic calibration adjustments
are done via the enable cable. During manual calibration, the user
makes the adjustments from the monitor controls.
enable cable
framing
gamma
gain
A cable used to interface between a CRT monitor and a computer
during automatic calibration.
The process of cropping an image to fit into the specified aspect
ratio.
A measurement of the relationship between the voltage input and
the brightness of your monitor.
The percent of increase between the input signal and the output
signal.
gamut
HD
The range of colors that a device can produce. Also called color
gamut.
High definition displays that can display 1080 and 1035 interlaced
lines of resolution along with 720 and 1080 progressive lines of
resolution in a 16:9 aspect ratio.
illuminant
A physical or emulated light that is defined by its spectral power
distribution.
kdm.ini file
The default data file containing the system settings information.
This file is used by the system each time it opens. After the Display
9 8
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Glossary
Manager System opens, you can load customized .ini files if you do
not want to use the settings in the kdm.ini file.
KODAK VISION2 HD
System
A KODAK Imaging System for television that combines a scan-
optimized color negative film and image processing implemented
through new hardware to enable the creation of multiple starting
looks for post production work.
LAD
Laboratory Aim Density
luminance
A measurement of a luminant surface that approximates the
perception of brightness.
manual
characterization
assistant
A Display Manager System utility that can be used to create a
characterization file for an HD/SD display or digital projector.
patches
Individual color squares that the sensor reads during calibration,
characterization, and verification.
pluge chart
(Picture Line-up Generation Equipment) A test pattern used to
adjust the black level of a display. Adjust the brightness of your
monitor until the pattern blends into the black background.
profile
projector aim
projector SPD
Quick Verify
SD
A data file that describes how a display reproduces color. In the
Display Manager System this is a .chr file that is created during the
characterization process.
Description of the film projector you are emulating. Specified by the
film projector open gate luminance and chromaticity or a spectral
power distribution curve.
(spectral power distribution) A description of a source's
characteristics, which indicates the amount of power of the source
at each wavelength in the spectrum.
A Display Manager utility that lets you quickly check 3 color
patches to determine if your display has started to drift out of
tolerance.
Standard definition display capable of displaying NTSC and PAL
video. NTSC broadcasting uses 525 lines of resolution while PAL
broadcasts at 625 lines of resolution.
sensor
A colorimeter used to measure color values of patches during
calibration, characterization, and verification.
SMPTE
SPD
Society of Motion Picture and Television Engineers
See projector SPD.
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
9 9
Glossary
spectrophotometer
A device used to measure spectral distribution as a function of
wavelength. Use to measure the White Luminance and White
Chromaticity of your digital projector. Enter these values on the Set
Up window. A colorimeter can also be used to take this
measurement.
spectroradiometer
Status A
A device used to measure light as a function of wavelength. Use to
measure the SPD of your projector. On the Set Up window, you
can import the resulting file.
Photographic densities. The Display Manager System allows you
to enter these values from a measured LAD patch when creating a
transform. This allows you to specify the printout process.
Status M
Photographic densities. The Display Manager System allows you
to enter negative density values to track film recorder response.
This information is included in the print emulation model to
compensate for recorder and process variations.
surround
compensation
A Display Manager System option that corrects for the effect of
viewing images in an environment that is not dimmed.
target
A data file that contains preset calibration values. Three default
targets are provided with the Display Manager System and can be
used as a starting point for setting the calibration values.
tolerances
transform
verification
The acceptable values above and below aim values when
calibrating your monitor.
A data file that contains the color information to be applied to an
image. This can be a .chr, .3dl, .1dl, or .e3d file.
The process of checking the system to determine the quality of the
monitor setup and print film match.
VISION2 HD System
white point
See KODAK VISION2 HD System.
The lightest color that a display can display. Not necessarily pure
white. The white point may be expressed in terms of correlated
color temperature or chromaticity coordinates.
1 0 0
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
INDEX
Numerics
1D LUT
defined 97
fails 76
defined 97
3D LUT
defined 97
how often 1
manual 36
overview 3
preparing for 23
timing 29
A
aspect ratio
framing 59
keeping 58
shortcut key 55
assistant, manual characterization
defined 99
shortcut keys 48
using 44
automatic calibration
not available 82
CCT, See correlated color temperature
center an image 58
characterization
automatic 41
defined 97
fails 77
how often 1
manual 44
overview 3
types 41
procedure 31
setting up 26
automatic characterization 41
chr file
creating 41
directory to 29
loading 52
B
background color 58
bias
chromaticity
chart 69
adjusting 3
defined 97
black point
adjusting 36
defined 97
brightness
adjusting 3
defined 97
build transform
to display look 52
unable to 82
coordinates, defined 97
diagram 33
diagram, defined 97
setting 25
CIELab
defined 98
plot 72
color space, video 57
colorbars target
defined 98
C
colorimeter
cable, enable
connecting 12
defined 98
not recognized 81
calibration
defined 98
to create SPD 25
correlated color temperature
defined 98
graph 69
curves, viewing 51
automatic procedure 31
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
101
Index
D
defined 98
gamma
defined 98
gamut
dark code value 26
dark gain correction
defined 98
fails 78
alert 51
defined 98
enabling remap 56
remap mode 60
procedure 32
digital projector
characterizing 46
exporting Digital Projector Format LUT
graphics card
increase acceleration 84
manual calibration 36
directories 29
display aim
defined 98
setting 26
Display Manager
how it works 3
installing 9
H
hardware
connecting 12
enable cable 12
SEQUEL sensors 16
X-RITE sensor 13
HD, defined 98
HD/SD
opening 21
display mode
defined 98
loading transform from 52
manual characterization 44
when to profile 1
help 8
selecting 5
DTP92+EK 14
DTP94+EK 13
dual-head support 28
I
illuminant, defined 98
image
E
loading 58
email support 8
enable cable
connecting 12
defined 98
not recognized 81
expert mode 23
export LUT
not displayed 84
won’t load 82
ini file
defined 98
problems with 83
saving to 23
installing
procedure 52
unable to 82
enable cable 12
SEQUEL sensors 16
software 9
F
film look
X-RITE sensor 13
IRIX system
installing on 10
requirements 90
creating 56
not as expected 86
verifying 70
film type 56
framing 59
K
kdm.ini file
as default 30
defined 98
problems with 83
G
gain
adjusting 3
1 0 2
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
Index
saving to 23
O
opening
Display Manager 21
manual characterization assistant 44
viewer 49
L
LAD values 56
license
does not work 81
has expired 81
obtaining 20
renewing 21
types of 2
P
patches
defined 99
timing between 29
phone support 8
PHOTO RESEARCH sensors
PR-650 7
LINUX
installation 11
requirements 90
load
playback 53
pluge chart
settings 30
transform 82
logs, verification 73
looks
defined 99
print look 56
print transform
using 56
printer lights 56
profile
defined 99
projector aim
defined 99
not as expected 86
print film 56
video 57
luminance
defined 99
setting 25
luminance adjust 25
setting 25
LUT
projector SPD
defined 99
directory 29
exporting transform 52
image product can’t find 83
unable to export 82
loading 25
Q
quick verify
defined 99
M
MACINTOSH
installation 9
requirements 89
main window 5
manual calibration
assistant 36
sistant
MINOLTA sensors
CS-100A 7
R
recorder compensation 63
regulatory information 95
renewing license 21
rescale transform 65
rgb values 54
S
saving settings 30
scale to fit 58
SD, defined 99
sensor
monitors
defined 99
falls off 79
not recognized 80
SEQUEL 16
generic support 6
preparing 23
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
1 0 3
Index
supported 7
defined 100
loading 52
rescale 65
X-RITE 13
SEQUEL sensors
4/C serial 18
unable to load 82
4/C USB 16
4/L USB 17
V
verification
defined 100
settings, loading/saving 30
setup options 24
SMPTE, defined 99
software
additional 91
installing 9
SPD
defined 99
loading 25
spectrophotometer
defined 100
recommended 8
spectroradiometer
defined 100
Status A
film look 70
logs 73
monitor setup 67
overview 4
when 67
video tapes 45
video transform
using 57
video, creating look 57
viewer
image not displayed 84
opening 49
shortcut keys 55
viewing curves 51
viewing environment 23
VISION2 HD
calibration 28
defined 100
entering densities 56
Status M
defined 100
support 8
surround compensation 62
system requirements 89
creating a video look 57
license 2
W
what’s this 8
white point
defined 100
video 57
WINDOWS
installation 9
requirements 89
T
tapes 45
targets
defined 100
selecting 26
tolerances
defined 100
setting 28
transforms
bit depth 61
X
X-RITE
DTP92+EK 14
DTP94+EK 13
Z
zoom factor 58
1 0 4
K O D A K D i s p l a y M a n a g e r S y s t e m V 4 . 1 U s e r ’ s G u i d e
EASTMAN KODAK COMPANY
Rochester, New York 14650
© Eastman Kodak Company, 2006.
TM: Kodak, Vision
P/N 4F3882
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