Autodesk XW8400 User Manual

The following are registered trademarks or trademarks of Autodesk Canada Co. in the USA and/or Canada and other countries: Backburner,  
Discreet, Fire, Flame, Flint, Frost, Inferno, Multi-Master Editing, River, Smoke, Sparks, Stone, and Wire.  
The following are registered trademarks or trademarks of Moldflow Corp. in the USA and/or other countries: Moldflow MPA, MPA (design/logo),  
Moldflow Plastics Advisers, MPI, MPI (design/logo), Moldflow Plastics Insight, MPX, MPX (design/logo), Moldflow Plastics Xpert.  
All other brand names, product names or trademarks belong to their respective holders.  
Disclaimer  
THIS PUBLICATION AND THE INFORMATION CONTAINED HEREIN IS MADE AVAILABLE BY AUTODESK, INC. "AS IS." AUTODESK,  
INC. DISCLAIMS ALL WARRANTIES, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED  
WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE REGARDING THESE MATERIALS.  
Title:  
Autodesk Lustre 2009 HP xw8400 Workstation Hardware Setup Guide  
Document Version:  
Date:  
1
October 15, 2008  
contents  
Contents  
1
Typical Configuration Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Workflow for Hardware Setup and Application Installation . . . . . . . . . . . . . . . . . . .  
Related Documentation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Hardware Configuration Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4
5
6
7
2
3
Workflow for Connecting Peripherals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
Connection Diagram for the HP xw8400 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16  
Connecting the Monitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
Connecting the Keyboard, Mouse, and Monitor Calibration Device . . . . . . . . . . . . 18  
Connecting System Components  
Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
Workflow for Connecting System Components in the Lustre Workgroup . . . . . . . 27  
27  
v
Contents  
Connecting a Stand-Alone Tablet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33  
Connecting the Slave Renderer to a Lustre Workstation . . . . . . . . . . . . . . . . . . . . . . . 33  
Connecting Video I/O to a Master or HD Station. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36  
Setting Up VTR Emulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38  
Connecting to a High-Speed Data Link Device (HSDL) . . . . . . . . . . . . . . . . . . . . . . . 39  
Connecting Audio Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39  
Index  
45  
vi  
Introduction  
Summary  
Workflow for Hardware Setup and Application Installation . . . . . . . . . . . . . . . . . 5  
Related Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
Hardware Configuration Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Notation Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13  
Contacting Customer Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13  
About This Guide  
This guide describes how to set up the HP® xw8400 workstation and the other hardware  
components of your Autodesk® Lustre® 2009 workgroup. The HP xw8400 workstation is  
available for Lustre systems on Windows®, as well as for Autodesk Incinerator® Lustre systems  
on Linux®. To install and configure hardware and software components, use this guide in  
conjunction with the following documents: the Autodesk Lustre Software Installation Guide for  
Windows Workstations, the Autodesk Incinerator 2009 Installation and User Guide for Lustre  
with Incinerator, and the Stone Direct Configuration Guide for this release.  
NOTE: In most cases, both hardware setup and application installation are done on delivery by an  
authorized technician, so you may not need to perform some of the procedures in these guides.  
The latest versions of all guides are available in PDF format from the Web at www.autodesk.com/  
lustre-documentation. For best results viewing and printing these PDF files, use Adobe®  
Acrobat® Reader™ 6 or later, or Xpdf viewer.  
1
     
1
Introduction  
NOTE: If you do not have Acrobat Reader, you can download a free copy from the Adobe Web site  
www.adobe.com). If you do not have Xpdf viewer, you can download a free copy from the Xpdf  
Web site (www.foolabs.com/xpdf/).  
(
The Lustre Workgroup  
Lustre is a modular system that you can configure and expand to suit your needs. The features  
you purchase determine the hardware included with your system.  
Central to any system is the Master Station or HD Station. The Master Station is a high-end  
Windows- or Linux-based PC designed to accommodate real-time interactivity in a client-  
attended or supervised session. You can add a Lustre Station to improve the efficiency of your  
pipeline.  
Master Station — Includes the full Lustre toolset and is designed for GPU-accelerated sessions  
where the colorist works together with the cinematographer. Contains an extensive creative  
toolset for more elaborate visual design and grading using up to 4K resolution and 16-bit files  
and for completing tasks like dust busting, conforming, rotoscoping and capture/playout.  
HD Station — Cost-effective GPU workstation for conforming, preparing, grading and  
mastering short-form and long-form HDTV projects, as well as HD film projects. Input up to  
10-bit 2K and output HD and SD.  
Lustre Station — Tasks that do not require the direct intervention or supervision of the  
colorist can be efficiently handled by a Lustre Station. Multiple Lustre Stations can work in  
parallel to increase throughput and can be used for tasks such as dust-busting, preparatory  
work, fine-tuning creative sessions, conforming data from EDLs, updating editorial changes  
using change lists, and mastering to different formats using the real-time deliverables function.  
Lustre Workstation Features  
The following table describes the features available to each Lustre workstation.  
NOTE: The features of Lustre 2009 may vary based on your hardware platform. Consult the  
Autodesk 2009 Release Notes for your release for specific system information.  
2
   
Optional Lustre Components  
Station  
Configuration  
Master Station  
Default — All features are available including SD and HD I/O, dual link and  
HSDL video formats and the DI Pack, which consists of infrared channel  
dust removal and support for all standard input and output resolutions  
and bit-depths. Certain features require add-on licensing.  
Add-Ons — The following features can be added to the Default  
configuration: the Slave Renderer and up to three panels for the Autodesk  
control surface. The Slave Renderer requires a separate license.  
Lustre HD Station Default — Includes all features except for the DI Pack (see the Master  
Station description). File input is limited to 2K resolution. File output is  
limited to HD resolution, 10-bit. Certain features require add-on licensing.  
Add-Ons — The following features can be added to the Default  
configuration: SD and HD I/O, dual link and HSDL video formats, the Slave  
Renderer, and up to three panels for the Autodesk control surface. The  
Slave Renderer requires a separate license.  
Lustre Station  
Default — All features are available except for primary and secondary  
colour grading. The DI Pack (see the Master Station description) is also  
included, along with full dust removal functionality, and the ability to  
create geometries and masks.  
With Primary Colour Correction — Includes all features of the default  
option as well as primary colour grading.  
Add-Ons — The following features are available for either the Default  
configuration or the With Primary Colour Correction configuration, and  
require an additional license: SD and HD I/O, dual link and HSDL video  
formats, and up to three panels for the Autodesk control surface.  
The Slave Renderer requires a separate license.  
Optional Lustre Components  
You can expand the features of your Lustre system and improve the efficiency of your workflow  
by adding any of the following components.  
Control Surface — The Autodesk control surface provides improved interactivity when  
colour grading film and video footage. You can perform many of the same tasks you do in the  
Lustre user interface using the control surface.  
Video I/O — Video I/O is provided by the DVS Centaurus® board, which consists of an HD/  
SD board and a breakout box. This configuration provides real-time SDI input and output of  
uncompressed 8- or 10-bit HD or SD video in both YUV (4:2:2) and RGB formats (4:4:4 or  
4:2:2).  
For a list of supported video formats, see the Autodesk Lustre 2009 User Guide.  
Audio I/O — Audio I/O is provided by the DVS Centaurus board, which consists of an HD/SD  
board and a breakout box, and an ADAT Converter such as the Lucid ADA 88192. This  
3
 
1
Introduction  
configuration offers eight audio input and eight audio output channels. They all use 24-bit  
audio resolution.  
Slave Renderer — The Slave Renderer is a rack-mounted server that is connected directly to  
the Lustre workstation. It frees system resources by off-loading render tasks on an ‘as-needed’  
basis, thus ensuring real-time interaction on the Lustre system.  
Background Renderer — Background rendering frees up Lustre workstations for colour  
grading. You can use up to eight background rendering machines to process your final frames.  
NOTE: For a list of Incinerator system components, refer to the Autodesk Incinerator 2009  
Installation and User Guide  
Typical Configuration Overview  
The following illustration shows a typical configuration, including the Master Station, Lustre  
Station, and other optional components.  
4
 
Workflow for Hardware Setup and Application Installation  
Control Surface  
R
G
B
Bright Bright Sh Mid High  
Brightness Saturation  
R+ G+ B+  
Hue  
+
R
-
G
-
B
-
-
Shado  
w
C
ont  
rast  
Brigh  
tness  
F1  
F2  
F4  
F5  
F3  
F6  
F7  
F8  
F9  
Lustre Master Workstation  
Proxy  
Split  
Wipe  
Multi  
ALT  
Still  
O/P  
Matte  
Video I/O (DVS Centaurus + Break out box)  
In  
Out  
1/2  
3/4  
5/6  
7/8  
1/2  
3/4  
5/6  
7/8  
Out  
Out  
RS422A  
RS422B  
Audio Wclk CVBS  
GPI  
LTC  
In  
Out  
Peripheral Options  
Network Options  
Slave Renderer  
Lustre Storage  
Background Rendering (burn)  
SAN access  
Lustre Station  
Storage Volume  
In  
Out  
1/2  
3/4  
5/6  
7/8  
1/2  
3/4  
5/6  
7/8  
Out  
Out  
RS422A  
RS422B  
Audio Wclk CVBS  
GPI  
LTC  
In  
Out  
Video I/O  
NOTE: For an Incinerator system configuration overview, refer to the Autodesk Incinerator 2009  
Installation and User Guide  
Workflow for Hardware Setup and Application Installation  
The following procedure provides the general workflow for installing Lustre on an HP xw8400  
workstation running Windows.  
5
 
1
Introduction  
For workflow information related to the HP xw8400 running on Linux for Incinerator, refer to  
the Autodesk Incinerator 2009 Installation and User Guide.  
1. Review the guidelines for working with hardware components. See “Hardware  
Configuration Guidelines” on page 7.  
2. Connect all peripherals (mouse, keyboard, graphics monitor, storage, etc.) to each  
2, “Connecting Peripherals,” on page 15.  
3. Connect your workstation to Autodesk Stone® Direct storage. See the Stone Direct  
Configuration Guide.  
4. Connect your Master or HD Station to a Slave Renderer, a control surface, tablet, and video  
I/O components. See Chapter 3, “Connecting System Components,” on page 27.  
NOTE: The Slave Renderer is not used in Incinerator configurations.  
5. Perform the procedures in the Autodesk Lustre 2009 Software Installation Guide or the  
Autodesk Incinerator 2009 Installation and User Guide to install and license Lustre and  
Incinerator.  
Related Documentation  
The following table describes the documentation associated with your application. For a  
detailed list of the latest documentation, see your release notes.  
User Guides  
Provides  
Autodesk Lustre 2009 User Guide  
Autodesk Control Surface User Guide  
Detailed instructions on using the software.  
Detailed instructions on using the Autodesk  
control surface and the Tangent CP100.  
Autodesk Lustre 2009 New Features Guide A list of the new features for this release.  
Autodesk Lustre 2009 Hot Keys Card  
Autodesk Lustre 2009 Release Notes  
A list of the most frequently used hot keys.  
A complete list of documentation and information  
on late-breaking features.  
Autodesk Lustre 2009 Fixed and Known  
Bug List  
A complete list of fixed and known bugs for this  
release.  
6
   
Hardware Configuration Guidelines  
Installation and Configuration Guides Provides  
Hardware Setup Guide  
(for your workstation)  
Information on how to set up your workstation  
and video I/O peripherals.  
Stone Direct Configuration Guide  
Provides detailed connectivity diagrams and  
configuration procedures for your Stone storage  
arrays.  
Autodesk Lustre 2009 Software Installation Information about installing and licensing your  
Guide  
Autodesk Lustre software.  
(for your operating system)  
Note: For Lustre and Incinerator, see the Autodesk  
Incinerator 2009 Installation and User Guide  
.
Stone and Wire Filesystem and Networking Procedures for configuring your Wiretap®  
Guide  
services.  
(for this release)  
Other Guides  
Provides  
Autodesk Lustre Sparks API Reference  
Guide  
Instructions for developing Sparks® plugins for  
Lustre.  
Autodesk Backburner 2008.1 Installation Information on how to install, set up, and use  
Guide  
Autodesk Backburner™.  
Autodesk Backburner 2008.1 User Guide  
Consult the Autodesk Web site at www.autodesk.com/lustre-documentation for the latest version  
of guides, release notes, and fixed and known bugs documents.  
Hardware Configuration Guidelines  
In most cases, hardware integration and application installation is done on delivery by an  
authorized technician, and some of the procedures in this guide may not be necessary. Still, it is  
a good idea to read through all chapters to familiarize yourself with the configuration  
procedures for the following reasons:  
Many suspected problems with your Lustre system may be due to loosened connections or  
improperly configured devices. This guide helps you troubleshoot problems by providing  
information about properly configured systems.  
If you need to call Customer Support, familiarity with this guide puts you in a better position  
to provide diagnostic information.  
If you want to move your Lustre system at any time, or upgrade certain hardware components,  
information in this guide is crucial.  
Although this guide, in conjunction with the Autodesk Stone Direct Configuration Guide,  
provides complete information regarding hardware component configuration, it should only be  
undertaken by an experienced hardware integrator. This individual should be familiar with the  
7
   
1
Introduction  
Windows or Linux operating systems, HP xw8400 workstations, and peripherals associated  
with professional high-performance video and post production of film.  
Your Lustre system consists of high-performance hardware that must be configured in an  
environment suited to its operational needs. Other considerations include minimizing the risk  
of damage due to static discharge and ensuring all components are properly grounded.  
Verifying and Updating The System BIOS Version  
System configuration is performed by an authorized technician prior to delivery. As such, some  
of the procedures here may not be necessary. Workstation BIOS settings are provided for  
informational purposes.  
The system BIOS on your workstation must correspond to the certified version required by  
your software version. If the BIOS version on your system does not correspond to the table  
below, you must update to the certified version.  
Product Version  
Certified BIOS Version  
2009  
2.26  
The BIOS version installed on your system appears onscreen while booting the workstation.  
The following procedures describe how to update the BIOS on your workstation.  
WARNING: You should only update the BIOS if you find that it is not at the version listed in this  
guide, or if your are advised to do so by Customer Support. Do not update the BIOS with a more  
recent version published by the hardware vendor, if it has not been certified by Autodesk  
Customer Support.  
To update the BIOS on a Windows workstation:  
1. Get the BIOS upgrade utility and burn it to a CD.  
2. Insert the CD into the CD-ROM drive  
3. Reboot the workstation and press F10 to enter BIOS.  
4. Select a language.  
5. From the File menu, select Flash System ROM.  
The Select a Drive menu appears.  
6. Click Optical Drive.  
The Select a Drive confirmation menu appears.  
7. Press F10 to confirm.  
8. Select the 7D5_0115.bin file.  
8
 
Hardware Configuration Guidelines  
The Flash® System ROM confirmation menu appears.  
9. Press F10 to confirm.  
10. Press any key.  
System ROM Flash was successful appears.  
11. Verify system BIOS settings. See “Verifying BIOS Settings” on page 10.  
12. From the File menu, select Save Changes and Exit.  
To update the BIOS on a Linux workstation:  
1. Load the DKU CD in the DVD-ROM drive on the workstation.  
2. Open a terminal.  
3. Type:  
cd /mnt/cdrom/Utils/BIOS/  
Each supported platform has its own directory that contains an .iso file.  
NOTE: For more information about updating the BIOS on your workstation, refer to the  
README file located in your platform’s directory.  
4. Type:  
cd ./<platform>  
5. Burn the .iso file for your platform onto a CD-ROM and place it in the DVD-ROM drive on  
the workstation.  
6. Reboot the workstation and press F10 to enter BIOS.  
7. Select a language.  
8. From the File menu, select Flash System ROM.  
The Select a Drive menu appears.  
9. Click Optical Drive.  
The Select a Drive confirmation menu appears.  
10. Press F10 to confirm.  
11. Select the 7D5_0115.bin file.  
The Flash System ROM confirmation menu appears.  
12. Press F10 to confirm.  
13. Press any key.  
9
1
Introduction  
System ROM Flash was successful appears.  
14. Verify system BIOS settings. See “Verifying BIOS Settings” on page 10.  
15. From the File menu, select Save Changes and Exit.  
Verifying BIOS Settings  
You do not normally need to adjust BIOS settings on your workstation. BIOS settings for the  
workstation are provided here for informational purposes only.  
To enter the system BIOS, press F10 while booting the workstation.  
WARNING: Before installing Red Hat® Linux, it is recommended that you verify the workstation’s  
BIOS settings. If the storage SATA emulation option is not set correctly (to Separate IDE Controller),  
you must redo Red Hat Linux installation.  
The following table lists the proper Autodesk certified BIOS settings. Items not listed are set to  
their default factory settings.  
BIOS Menu  
Item  
Value  
Storage, Storage options  
SATA Emulation  
Separate IDE  
Controller  
Storage  
Boot Order  
Optical Drive  
USB Device  
Hard Drive,  
Integrated SATA  
Hard Drive,  
Integrated IDE  
Storage, Power, OS Power Management  
Runtime Power  
Management  
Disabled  
Storage, Power, OS Power Management  
Storage, Power, OS Power Management  
Storage, Advanced, Device Options  
Advanced  
Idle Power Savings  
ACPI S3 Support  
S5 Wake on LAN  
Slot5 - PCI 133  
Normal  
Disabled  
Disabled  
Slot5 speed 100Mhz  
PCI-x m1  
Restoring BIOS to Default Factory Settings  
The following procedure restores the default factory BIOS settings.  
To restore default factory BIOS settings:  
1. Press F10 while booting the workstation to enter the system BIOS.  
2. From the File menu select Default setup| Restore Factory Settings as  
Default.  
10  
   
Hardware Configuration Guidelines  
3. Press F10 to accept the changes.  
4. Select Apply Defaults and Exit.  
This restores the original factory system defaults.  
Verifying and Updating the Graphics Card Driver  
A new graphic driver (NVIDIA® driver 165.46) is required for Lustre 2009 Windows systems.  
To upgrade the NVIDIA graphics card driver, complete the following instructions.  
To upgrade the NVIDIA graphics driver:  
1. Copy the driver upgrade package located in the Lustre 2009 release package  
(Drivers\Nvidia\165.46.zip) to a temporary location on your system.  
2. Use a compression utility, like Winzip, to decompress the driver upgrade package and  
extract it to a folder on your system.  
3. Open the folder that contains the upgrade package you extracted and double-click setup.exe  
to start the driver update.  
4. Click Next to continue the upgrade procedure.  
A Hardware Installation warning message appears.  
5. Click Continue Anyway.  
6. Select Yes, I want to restart my computer now, and click Finish.  
After you reboot, the NVIDIA graphics card driver is installed.  
Ensuring Proper Environmental Conditions  
You should consider the following environmental guidelines for all hardware configuration:  
Make sure the rack in which hardware components are installed is open or ventilated. Follow  
the ventilation specifications that apply to your system.  
Place all components in an air-conditioned environment. All hardware components generate  
heat and must be kept cool. See “Power and Air Conditioning Requirements” on page 12.  
Keep all hardware components in a clean, dust-free location.  
Minimize vibration and humidity.  
Do not block the vents on the component housing.  
Do not drape anything, such as a jacket or a blanket, over hardware components.  
Minimize electromagnetic noise by separating digital data and power cables from analog  
audio cables and running them in different cable ducts.  
11  
1
Introduction  
Power and Air Conditioning Requirements  
The values for power consumption and heat output were recorded on an Autodesk certified  
system with all of the required peripheral and certified components.  
NOTE: These values can fluctuate if uncertified hardware components or third-party applications  
are added to your system. The use of uncertified hardware components or third-party applications  
is not supported. Please consult the manufacturer’s documentation for standardized minimum  
and maximum values.  
The following table summarizes the power consumed by the HP xw8400 system and the heat it  
generates under the maximum processing load produced by your Lustre application. For  
detailed specifications, including noise output, see the documentation provided by the  
manufacturer.  
Component  
Quantity Startup Amps  
(120V / 240V)  
Max. Amps  
(120V / 240V)  
Watts  
Heat  
(BTUs)  
HP xw8400  
1
3.5 / 1.8  
2.8 / 1.4  
336  
1146.4  
You must be able to meet the startup power requirement and have a climate control system with  
the capacity to maintain the temperature of this component under the maximum processing  
load. Refer to the following table for standard conversion benchmarks and an example of how  
they are used to establish climate control requirements.  
Unit Conversion  
Example  
1 Watt = 3.413 BTU  
480 Watts = 1638 BTU  
12000 BTU = 1 Ton of air conditioning 1638 BTU = 0.137 Ton of air conditioning  
Avoiding Damage from Static Electricity  
When installing any hardware equipment, take the following precautions to prevent damage to  
sensitive components from static discharge:  
Make sure power is turned off on the component you are working on. It is a good idea to  
unplug components until all other connections are configured.  
Always wear a grounded static wrist strap. Attach the strap’s alligator clip to any grounded  
metal surface on the components chassis that you are working on. Place the wristband around  
your wrist.  
Do not handle any components unnecessarily, particularly boards and cards that slide in and  
out of slots on their parent hardware components.  
12  
   
Notation Conventions  
Grounding Hardware Components  
It is important to properly ground any audio components used with Lustre to avoid ground  
loops and humming. To ensure audio components are properly grounded, use the XLR-3  
cables. Using any other cables may cause humming in the system.  
Receiving Your Lustre System  
When you receive the shipment containing your Lustre, check all the boxes for dents or other  
markings that may indicate damage during transport. If you suspect a component is damaged,  
carefully inspect it before setting up the system. If you receive a damaged component, call  
Customer Support.  
Use the enclosed packing checklist to ensure you received all parts.  
Notation Conventions  
A number of style conventions are used throughout this guide. These conventions and  
examples of their use are shown as follows.  
Convention  
Example  
Text that you enter in a command line or shell appears in  
Courier bold. You must press the Enter key after each  
command.  
rpm -qa  
Variable names appear in Courier, enclosed in angle brackets. <variable_name>  
No spaces are allowed in variable names.  
Variables that appear enclosed in square brackets are  
optional.  
[<filename>]  
Feedback from the command line or shell appears in Courier. limit coredumpsize  
Directory names, filenames, URLs, and command line utilities /usr/discreet  
appear in italics.  
Contacting Customer Support  
A list of contact information for Autodesk Media and Entertainment Customer Support is  
available at www.autodesk.com/support.  
Customer support is also available through your Autodesk reseller. To find a reseller near you,  
consult the reseller look-up database on the Autodesk web site at www.autodesk.com/resellers.  
13  
           
1
Introduction  
14  
Connecting Peripherals  
Summary  
Connection Diagram for the HP xw8400 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16  
Connecting the Monitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
Connecting the Keyboard, Mouse, and Monitor Calibration Device . . . . . . . . . 18  
Connecting Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18  
Network Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19  
Workflow for Connecting Peripherals  
You must connect peripherals (monitor, keyboard, mouse, storage, and network) to each Lustre  
workstation before you connect the workstations to video I/O, a control surface, or to other  
components in the workgroup.  
Connect all hardware peripherals before you boot your workstation.  
See the following table for a summary of the steps necessary to connect peripherals to your  
Lustre workstation.  
Step:  
Refer to:  
1. Review the connection diagram for your workstation.  
“Connection Diagram for the HP  
xw8400” on page 16.  
2. Connect a monitor to the workstation.  
“Connecting the Monitor” on page  
17.  
3. Connect a keyboard, mouse, and calibration device to  
your workstation.  
“Connecting the Keyboard, Mouse,  
and Monitor Calibration Device” on  
page 18.  
4. Connect the workstation to storage.  
“Connecting Storage” on page 18.  
15  
         
2
Connecting Peripherals  
Step:  
Refer to:  
5. Connect the workstation to your network.  
“Network Connections” on page  
19.  
6. After you connect all the peripherals to your Lustre  
workstations, you can connect the workgroup  
components together.  
Chapter 3, “Connecting System  
Components,” on page 27.  
Connection Diagram for the HP xw8400  
The following diagrams show the connections for the HP xw8400 workstation.  
NOTE: These diagrams provide an overview of video I/O connections. See “Connecting Video I/O  
to a Master or HD Station” on page 36.  
HP xw8400 Workstation  
(Windows Configuration)  
HD-SDI (V2) Out  
0:2:2/4:0:0 to 4:4:4  
display device or VTR  
HD-SDI (V1) Out 4:2:2 to 4:2:2 or 4:4:4  
display device or VTR  
Ref In from sync gen  
Connect to second  
DVI out on the  
main FX5500 card  
To USB extender for mouse,  
keyboard, monitor calibrator  
HD-SDI Out (B) to  
4:4:4 VTR  
(dual link 0:2:2)  
HD-SDI In (B) from  
4:4:4 VTR  
To Slave Renderer  
(dual link 0:2:2)  
To DVS BOB  
DVI2 Out to FX5500  
SDI daughter card  
To GFX monitor  
To storage  
1, 4 to SAN; 2, 3 to Stone  
Ref In from sync gen  
HD-SDI Out (A) to 4:2:2  
VTR (or 4:4:4 dual link)  
To InfiniBand switch  
(optional)  
0 to control surface,  
1 to LAN, 3 to SAN  
HD-SDI In (A) from 4:2:2  
VTR (or 4:4:4 dual link)  
NOTE: Systems connected to the high-speed InfiniBand network may experience performance  
degradation if high bandwidth is requested on the Broadcom GigE card (slot 7).  
16  
   
Connecting the Monitor  
HP xw8400 Workstation  
(Linux - Incinerator only)  
HD-SDI (V2) Out  
0:2:2/4:0:0 to 4:4:4  
display device or VTR  
HD-SDI (V1) Out 4:2:2 to 4:2:2 or 4:4:4  
display device or VTR  
Ref In from sync gen  
Connect to second  
DVI out on the  
To USB extender for mouse,  
keyboard monitor calibrator  
,
main FX5500 card  
HD-SDI Out (B) to  
4:4:4 VTR  
(dual link 0:2:2)  
To Incinerator  
GigE switch  
HD-SDI In (B) from  
4:4:4 VTR  
(dual link 0:2:2)  
To DVS BOB  
To GFX monitor  
DVI2 Out to FX5500  
SDI daughter card  
To InfiniBand  
switch  
Ref In from sync gen  
HD-SDI Out (A) to 4:2:2  
VTR (or 4:4:4 dual link)  
0 to control surface,  
1 to LAN, 3 to SAN  
HD-SDI In (A) from 4:2:2  
VTR (or 4:4:4 dual link)  
NOTE: The Slave Renderer option is not available for Lustre with Incinerator.  
Connecting the Monitor  
Connect the monitor to the DVI connection on the Lustre workstation’s graphics card. You can  
use the DVI extender cable (DL.CAB-HDTV-FO-82-MM) to extend the cable to a machine  
room.  
To connect the monitor:  
h
Use the DVI cable to connect the DVI OUT1 port of the NVIDIA® Quadro® FX5500  
graphics card to the DVI-D IN port of the monitor.  
NOTE: Although the DVI fiber cable connectors are identical, their functions are different.  
Ensure that the connector labeled Send is connected to the Lustre workstation, and that the  
connector labeled Receive is connected to the monitor.  
17  
     
2
Connecting Peripherals  
Connecting the Keyboard, Mouse, and Monitor Calibration  
Device  
Connect the mouse, keyboard, and monitor calibration device to the workstation via the 4-port  
USB extender (TP.USB-EXT-400).  
To connect the keyboard and mouse:  
1. Connect the USB keyboard to port 2 on the remote unit of the USB extender.  
2. Connect the USB mouse to port 3 on the remote unit of the USB extender.  
3. Connect the monitor calibration device (TP.MON-CAL-LCDCRT) to port 4 on the remote  
unit of the USB extender.  
4. Use an RJ-45 cable to connect the remote unit of the USB extender to the local unit of the  
USB extender.  
5. Connect the local unit of the USB extender to USB1 port on the workstation.  
To enable the Eye-One calibration utility driver:  
h
Do one of the following:  
For Windows-based workstations, if the driver is not already installed, you will be  
prompted to install the monitor calibration device driver when you restart the  
workstation. The driver is available from the C:\Program Files\Autodesk\Lustre Color 2008  
SP3\Calibration\drivers directory.  
For Linux workstations, once the software installation has been completed,start the  
eyeone27 daemon on the workstation. Type: /etc/init.d/eyeoned_2009 start  
Connecting Storage  
Windows or Linux operating system.  
Storage for Windows-Based Workstations  
Your workstation is configured with a 4-port ATTO Celerity FC-44ES fibre channel adapter. See  
“Connection Diagram for the HP xw8400” on page 16 for the fibre channel adapter location  
and connections.  
18  
       
Network Connections  
You can connect your workstation to two types of storage:  
One or more Stone Direct disk arrays that provide storage to individual workstations. Refer to  
the Stone Direct 2008 Configuration Guide for information on connecting disk arrays to your  
workstation.  
A Storage Area Network (SAN) that provides shared storage for multiple workstations. Refer  
to the Autodesk Stone Shared Installation and Configuration Guide for information on  
connecting your workstation to a SAN.  
Storage for Linux-Based Workstations  
Lustre systems on Linux are used in conjunction with Incinerator 2008 and do not require local  
storage. Instead, your workstation is configured with an Infiniband 9000 DDR dual port HCA,  
which allows it to connect to the Incinerator high-speed Infiniband network.  
Refer to the Autodesk Incinerator 2009 Installation and User Guide for information on how to  
connect your workstation to the Incinerator high-speed Infiniband network.  
Network Connections  
Your workstation is configured with a 4-port Broadcom network card, and an integrated  
network port.  
Infiniband Network Support for Lustre on Windows-based  
Workstations  
Lustre supports the use of an Infiniband network for HP xw8400 workstations running  
Windows XP SP2. The workstation must have the required Infiniband driver installed.  
second HD at 1920x1080 resolution with an 8-bit bit depth from Wiretap clips loaded from  
Autodesk Smoke® or Autodesk Flame®.  
When the Infiniband topology (including driver) is fully installed, Autodesk recommends  
adjusting specific configuration parameters in the Windows operating system to optimize  
performance. See “To optimize the Infiniband driver on Windows:” on page 24.  
19  
   
2
Connecting Peripherals  
1. Download the driver package to a temporary location on your system. You can find the  
appropriate driver package here:  
NOTE: Contact Customer Support if you have any problems downloading the driver package.  
See “Contacting Customer Support” on page 13.  
2. Double-click the driver package and click Run.  
The SilverStorm HCA Setup Wizard opens.  
Click Next.  
3. On the License Agreement page, read the agreement before selecting the I Agree radio  
button. Click Next.  
4. On the SilverStorm HCA Information page, read through the driver manufacturer Release  
Notes, then click Next.  
20  
Network Connections  
5. On the Installation Options page, make sure no optional components are checked, then  
click Next.  
6. On the Select Installation Folder page, browse for the correct path in which to install the  
driver.  
7. Choose the system user permissions by selecting either the Everyone radio button or the Just  
me radio button. Click Next.  
21  
2
Connecting Peripherals  
8. On the Confirm Installation page, click Next to begin the installation.  
The wizard displays an installation progress bar.  
9. On the Installation Complete page, click Close.  
10. On the Windows Desktop, right-click My Computer and select Properties in the drop-down  
menu.  
The System Properties dialog box appears.  
11. Click the Hardware tab.  
12. Click Device Manager.  
The Device Manager dialog box appears.  
13. Right-click the PCI Device under Infiniband Host Channel Adapters.  
The Hardware Update Wizard appears.  
14. Select No and click Next.  
15. Select Install from a list or specific location and click Next.  
16. Browse for the driver and click Next.  
17. Click Finish.  
The driver and interface install.  
22  
Network Connections  
18. In the Device Manager dialog box, right-click the first Infiniband port adapter.  
NOTE: There are two Infiniband port adapters. In the Device Manager, at this point, the  
adapters should each be indicated by the adapter icon with an exclamation mark through it.  
This shows that the adapter drivers are not yet installed.  
The Hardware Update Wizard appears.  
19. Select No and click Next.  
20. Select Install from a list or specific location and then click Next.  
21. Browse for the driver and click Next.  
22. Click Finish.  
The driver and interface install.  
23  
2
Connecting Peripherals  
Repeat step 19 to step 22 for the second Infiniband port adapter.  
The Infiniband Host Channel Adapter and the two IP over IB port adapters should appear  
in the Device Manager dialog box, without exclamation marks on their icons.  
To optimize the Infiniband driver on Windows:  
NOTE: The Infiniband driver optimization steps are optional.  
1. Go to the Network Connections panel.  
2. Right-click on the connected IPoIB port and select Properties.  
3. Click the Advanced tab.  
4. Click Configure.  
24  
 
Network Connections  
5. Configure the card so you have these values:  
Receive Queue Depth of 256  
Send Queue Depth of 256  
25  
2
Connecting Peripherals  
4-Port Broadcom Adapter  
Connect the workstation to your facility’s network to access background rendering nodes, other  
Lustre Stations, and the facility’s NAS or SAN centralized storage (if applicable). You connect  
the ports on the Broadcom card as follows:  
Connect Port 0 to the Autodesk control surface hub or the control surface itself.  
Connect Port 1 to your house network.  
Connect Port 2 to a SAN private network (optional).  
For more details about configuring the Autodesk control surface, see “Connecting the  
Integrated Network Adapter  
For Windows-based workstations, connect the integrated network port to the Slave Renderer.  
For more details about configuring the Slave Renderer, see “Connecting the Slave Renderer to  
a Lustre Workstation” on page 33.  
For Linux-based workstations, connect the integrated network port to the Incinerator private  
port. Refer to the Autodesk Incinerator 2009 Installation and User Guide for information on how  
to connect your workstation to the Incinerator private network.  
26  
Connecting System Components  
Summary  
Connecting the Slave Renderer to a Lustre Workstation . . . . . . . . . . . . . . . . . . . . 33  
Connecting Video I/O to a Master or HD Station . . . . . . . . . . . . . . . . . . . . . . . . . . . 36  
Setting Up VTR Emulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38  
Connecting to a High-Speed Data Link Device (HSDL) . . . . . . . . . . . . . . . . . . . . . 39  
Connecting Audio Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39  
Workflow for Connecting System Components in the Lustre  
Workgroup  
After you have connected peripherals to your workstation, you are ready to connect it to the  
Autodesk control surface, to video I/O hardware, and to a Slave Renderer.  
See the following table for a summary of the steps necessary to connect components in your  
workgroup.  
Step:  
Refer to:  
1. Connect the control surface to your  
workstation.  
For the Autodesk control surface: “Connecting  
the Autodesk Control Surface” on page 28,  
“Assigning an IP Address to the Autodesk Control  
Surface” on page 31, and “Configuring Lustre to  
Connect to the Autodesk Control Surface” on  
page 33.  
2. If necessary, connect a tablet to your  
workstation.  
“Connecting a Stand-Alone Tablet” on page 33.  
27  
         
3
Connecting System Components  
Step:  
Refer to:  
3. Connect a Slave Renderer to the Lustre  
workstation (Windows only).  
Workstation” on page 33.  
4. Connect the workstation to video I/O  
components.  
“Connecting Video I/O to a Master or HD Station”  
on page 36.  
5. Connect the workstation to a high-speed “Connecting to a High-Speed Data Link Device  
data link device.  
(HSDL)” on page 39.  
6. Connect the workstation to audio I/O  
components.  
“Connecting Audio Hardware” on page 39.  
Connecting the Autodesk Control Surface  
The Autodesk control surface consists of three panels. You can use any combination of them. If  
you are using more than one panel, you must use the network switch included with your  
shipment to cross-connect them.  
Refer to the Autodesk Control Surface User Guide for information on how to use the control  
surface with Lustre.  
NOTE: The illustrations in the following procedure only show the central module, i.e. the colour  
grading panel. This is the only panel that has a USB connection for the integrated tablet, and a  
network port. The other two panels only have a network port, which you connect to the network  
switch.  
28  
     
Connecting the Autodesk Control Surface  
To connect the Autodesk control surface:  
1. Use the AC power adapter cables to connect each panel to a power supply.  
2. Use a network cable to connect port 0 (the far right port) of the Broadcom network card on  
your workstation to port 1 on the Netgear ProSafe FS108 network switch.  
HP xw8400 Workstation  
To USB extender  
Network switch  
NETGEAR  
Ports 3 and 4 to  
additional panels  
PWR  
1
3
4
5
6
7
8
To port 1 on USB Extender  
Autodesk Control Surface  
Autodesk  
Tablet  
5V DC 4A  
Ethernet  
-
+
29  
3
Connecting System Components  
If you are using only one panel, you can connect that panel directly to the workstation,  
instead of using the switch.  
HP xw8400 Workstation  
To USB extender  
To port 1 on USB Extender  
Autodesk Control Surface  
Autodesk  
Tablet  
5V DC 4A  
Ethernet  
-
+
3. If you are using more than one panel, use network cables to connect each of the panels to the  
network switch.  
4. If you are using the panel that includes the tablet, use a USB cable to connect the panel to a  
USB port on the back of your workstation.  
30  
Assigning an IP Address to the Autodesk Control Surface  
NOTE: The above diagrams represent a Windows-based configuration. Components may differ  
slightly for the Linux configuration but the control surface connections are identical.  
Assigning an IP Address to the Autodesk Control Surface  
After you have connected the Autodesk control surface, you must assign it an IP address.  
To configure the Autodesk control surface on Windows-based workstations:  
1. Click Start | Settings | Network Connections.  
NOTE: You can also access Network Connections from the Control Panel.  
2. Right-click the port that the control surface switch or panel is connected to and choose  
Properties.  
3. In the Local Area Connections Properties dialog box, select Internet Protocol (TCP/IP) and  
click Properties.  
The Internet Protocol (TCP/IP) Properties dialog box opens.  
31  
   
3
Connecting System Components  
4. Select the Use the following IP address option.  
5. Set a static IP and Subnet mask address for the port. Select values that do not conflict with  
any other machine on your network. Consider using the following values:  
IP address: 192.168.125.10  
Subnet mask: 255.255.255.0  
6. Click OK twice.  
To configure the Autodesk control surface on Linux-based workstations:  
h
On the Lustre workstation, use a text editor such as nedit to configure the network port  
connected to the control surface with an unrelated static IP address that does not interfere  
with any of the IP addresses on the network. Also assign an appropriate subnet mask. Type:  
nedit /etc/sysconfig/network-scripts/ifcfg-eth<port#>  
Modify the IPADDR and NETMASK values. For example:  
IPADDR=192.168.125.10  
NETMASK=255.255.255.0  
32  
Configuring Lustre to Connect to the Autodesk Control Surface  
Configuring Lustre to Connect to the Autodesk Control Surface  
After you have configured the IP address of the control surface, you must configure Lustre to  
use the control surface.  
To configure Lustre to use the Autodesk control surface on Windows- or Linux-based  
workstations:  
1. Turn the power on to each of the modules and look at the top display panel on the module.  
It should display the panel name and ID.  
2. After you install Lustre 2009, open the init.config file located in C:\Program  
Files\Autodesk\<lustre version> in Windows, or in /usr/autodesk/<lustre version> in Linux  
with a text editor.  
3. In the ControlSurfacesection of the init.config file of your project, enter the panel IDs  
for each panel.  
ControlSurface  
AutodeskPanels state=”On”  
PanelIDs function=”0” grading=”0” navigation=”0”  
Once the steps above are completed, the ACS panels will be recognized, loaded, and  
connected when launching the application.  
4. Start Lustre. The following message should appear in the Console:  
Panel #<panel_ID> is detected  
This confirms that the Autodesk Control Surface is enabled.  
Connecting a Stand-Alone Tablet  
If you do not have the modular Autodesk control surface panel that includes the tablet, you can  
connect a stand-alone tablet.  
To connect a stand-alone tablet, connect the tablet to USB Out 1 on the USB extender.  
NOTE: On Windows-based workstations, you may need to restart Windows for the tablet to be  
recognized. On Linux-based workstations, re-starting the Xserver prompts tablet recognition.  
Press CTRL+ALT+BACKSPACE to start the Xserver.  
Connecting the Slave Renderer to a Lustre Workstation  
The Slave Renderer is available for the Master Station, the Lustre Station, and the Lustre HD  
Station, all of which must be running on a Windows-based workstation. The Slave Renderer is  
33  
             
3
Connecting System Components  
not available for the Linux-based version of Lustre, since it uses Incinerator to obtain real-time  
rendering and playback.  
Although the Slave Renderer uses a network connection, a higher Category 6 grade cable is  
needed to accommodate the data that is transmitted. For information on configuring the IP  
addresses of the network ports that connect the two workstations, see the Autodesk Lustre 2009  
Software Installation Guide for Windows Workstations.  
To connect the Slave Renderer to a Windows-based workstation:  
1. Connect the Category 6 crossover cable to the on-board network port at the back of the  
Lustre workstation.  
2. Connect the other end of the cable to the network port 1 of the Slave Renderer machine.  
The Slave Renderer should be connected as shown in the following diagram.  
34  
Connecting the Slave Renderer to a Lustre Workstation  
HP xw8400 Workstation  
(Windows-based)  
Slave Render Station (HP DL140 G3)  
Port 1  
35  
3
Connecting System Components  
Connecting Video I/O to a Master or HD Station  
You use the video components to set up video I/O and a broadcast monitor. The only video  
hardware you must provide are: a sync generator, a VTR, and an SD or HD SDI broadcast  
monitor. The following components are included in your hardware shipment.  
DVS Centaurus 1 or 2 board and DVS Breakout Box II — The DVS Centaurus board  
provides video I/O. Use the DVS Breakout Box II for serial control of a VTR or other slave device  
and LTC output to an audio device.  
NVIDIA Quadro FX5500 graphics board — The NVIDIA Quadro FX graphics board  
provides output to your computer monitor.  
EIZO® 24-inch or Sony™ 21-inch wide screen LCD graphics monitor — The EIZO and  
Sony LCD graphics monitors provide a 16:9 widescreen aspect ratio for film or HD projects.  
With these monitors, the application runs at a maximum resolution of 1920x1200. For  
instructions on connecting the graphics monitor, see “Connecting the Monitor” on page 17.  
Altinex® DA1804NT video distribution amplifier — The Altinex video distribution  
amplifier can serve a bi-level (SD) or tri-level (HD) sync signal to up to four video hardware  
devices from a single sync source/generator. It serves the sync signal to the NVIDIA graphics  
board and the DVS Centaurus board.  
Video I/O for Real-Time Deliverables and Without Real-Time  
Deliverables  
The following diagram describes the video I/O wiring for both the Real-time deliverables  
configuration and without Real-time deliverables. Real-time deliverables allows Lustre to play  
out to a VTR directly through the DVS SDI OUT.  
NOTE: The backplanes depicted in the following diagram represent a Windows-based  
configuration, but, it is also accurate for a Linux-based configuration, where the ATTO fibre-  
channel adapter is replaced by the Infiniband HCA.  
36  
       
Connecting Video I/O to a Master or HD Station  
HP xw8400 Workstation  
Real-Time Deliverables*  
HD/SDI Display Device  
HD/SDI out (V1)  
HD/SDI out (V2)  
4:2:2 gfx feed  
0:0:2/4:0:0 gfx feed  
Used in 4:4:4  
mode only  
From Altinex C  
omp Sync  
(HD) SDI In B from  
VTR (4:4:4)*  
(HD) SDI Out B to VTR (4:4:4)*  
To LTC on VTR  
or other slave device  
VTR Control  
RS-422  
IN  
OUT  
1/2  
3/4  
5/6  
7/8  
1/2  
3/4  
5/6  
7/8  
GPI  
RS 422A  
RS 422C  
RS.422D  
AUDIO  
WClk  
CVBS  
RS.422B  
LTC  
DIGITAL AUDIO  
OUT  
IN  
(Fron t)  
(B ack)  
DVS Centaurus Breakout Box  
AES/EBU AUDIO  
SYSTEM  
AES/EBU AUDIO  
Graphics Monitor  
From HD or SD Analog  
Sync Generator  
Altinex Out 1 to  
FX5500 Comp Sync  
POWER  
9V 600NA  
Altinex Out 2 to  
Centaurus Ref In  
V
INPUT  
IDEO  
OUT 1  
OUT 3  
OUT 2  
OUT 4  
Altinex  
Distribution  
amplifier  
ALTINEX  
DA1804NT Video Distribution Amplifier (Computer/ntsc/pal)  
(HD) SDI Out A to VTR (4:2:2)  
(HD) SDI In A from VTR (4:2:2)  
37  
3
Connecting System Components  
Setting Up VTR Emulation  
You can configure your Autodesk Lustre 2009 application to emulate a VTR for output in real  
time. You control the emulator from the application or device that sees the Autodesk Lustre  
2009 application as a VTR.  
The following procedure describes how to configure the hardware for VTR emulation. Consult  
the “VTR Emulation” chapter in the Autodesk Lustre 2009 User Guide for more information.  
To configure hardware for VTR emulation:  
1. Connect the video I/O cables between the devices involved in the VTR emulation process  
(out-to-in/in-to-out). Make sure the connections support the video standard you want to  
work with.  
2. Connect the audio I/O cables between the devices involved in the VTR emulation process  
(out-to-in/in-to-out).  
NOTE: Connect an RS-422 control cable to the serial ports between the devices used in the VTR  
emulation process.  
NOTE: The RS-422 cables for VTR emulation require custom pinouts. See “VTR Emulation RS-422  
Control Cables” on page 38.  
3. Make sure the appropriate video and audio sync setup is in place.  
VTR Emulation RS-422 Control Cables  
Custom cables are required to control the VTR emulator. The pinouts required by the cable  
depend on the workstation and device involved in the VTR emulation process. The following  
diagrams depict the control cable pinouts required for the most common VTR emulation  
setups.  
38  
       
Connecting to a High-Speed Data Link Device (HSDL)  
VTR Control Cable  
DVS REMOTE IN  
VTR SIDE  
1
6
1
6
2
7
3
2
7
3
8
4
9
5
8
4
9
5
MALE DB9  
MALE DB9  
8 - TX -  
WHT  
BLK  
2 - RX -  
PAIR 1  
PAIR2  
3 - TX +  
7 - RX +  
2 - RX -  
7 - RX+  
RED  
BLK  
8 - TX -  
3 - TX+  
4 - GND (SHIELD)  
GND  
4 - GND (SHIELD)  
Connecting to a High-Speed Data Link Device (HSDL)  
If you have purchased an HSDL license, you can connect to an HSDL device through the DVS  
Centaurus.  
Connect both the A and B in/out ports on the DVS main board and daughter card to your HSDL  
device.  
Connecting Audio Hardware  
Lustre accommodates as many as eight audio inputs and eight audio output channels, each with  
a 24-bit audio resolution. Lustre 2009 uses the audio BOB of the DVS (Centaurus 1 and 2).  
39  
     
3
Connecting System Components  
Audio Wiring Workflow  
The following procedure provides the general workflow for setting up the audio subsystem for  
Lustre.  
To wire the audio subsystem:  
1. Ensure that all of your workstation peripherals and video hardware components are  
properly connected.  
2. Verify that you have all the required audio hardware components. See “Audio Hardware  
Components” on page 40.  
3. Connect your audio hardware devices. To avoid system instability, make sure you connect  
your audio hardware as illustrated for your configuration. See “Audio Wiring” on page 40.  
4. Configure the Lucid converter for local control. See “Configuring the Lucid ADA 88192  
Converter” on page 42.  
Audio Hardware Components  
Lustre 2009 uses the following hardware components that are shipped with your system.  
Lucid ADA 88192 Converter — Converts signals between the workstation and all digital or  
analog audio I/O devices.  
DVS Balanced Audio breakout box and DVS Centaurus 1 or 2 board — The Balanced  
Audio breakout box is the audio component of the DVS breakout box. It provides connections  
for audio I/O. This breakout box connects to the DVS Centaurus 1 or 2 board on your  
workstation. The Centaurus board provides real-time input and output of uncompressed SD  
and HD video signals, as well as audio data at 24-bit resolution. The Centaurus board handles  
balanced AES/EBU audio signals from the Balanced Audio breakout box.  
Understanding Local Control of the Lucid Converter  
You can control the converter locally by adjusting converter settings manually, using the  
controls on the front of the converter.  
Whether you control the converter, you should take any necessary precautions to prevent  
inadvertent adjustments to settings via the controls on the front of the converter. For example,  
if the converter is one of several in a machine room, you might label each with the name of the  
computer to which it is connected.  
Audio Wiring  
If you have a DVS video device with a Lucid ADA 88192 converter, to connect the Lustre  
hardware components to the DVS breakout box, refer to the following diagram.  
40  
         
Connecting Audio Hardware  
IN  
OUT  
1/2  
3/4  
5/6  
7/8  
1/2  
3/4  
5/6  
7/8  
GPI  
RS 422A  
RS.422B  
RS 422C  
RS.422D  
AUDIO  
WClk  
CVBS  
LTC  
DIGITAL AUDIO  
OUT  
IN  
DVS BOB (Front)  
Digital  
outputs  
Input from  
analog source  
to serial port 1 on  
Linux workstation  
Analog Inputs  
AES/EBU Digital Inputs  
88192 A/D D/A CONVERTER  
8
8
7
7
6
5
4
3
3
2
2
1
1
7-8  
7-8  
5-6  
3-4  
1-2  
1-2  
RS-232  
WORD CLOCK  
INPUT  
Analog Outputs  
AES/EBU Digital Outputs  
6
5
4
5-6  
3-4  
OUTPUT  
ADAT IN 1-8  
ADAT OUT 1-8  
Lucid ADA 88192  
Converter  
Digital  
outputs  
Output to  
analog destination  
Alternative setup  
converted from  
analog source  
IN  
IN  
IN  
IN  
OUT OUT OUT OUT  
VTR  
Required for remote  
control of converter  
41  
3
Connecting System Components  
If you have a DVS video device with an ADAT converter, to connect the Lustre hardware  
components to the DVS breakout box, refer to the following diagram.  
DVS BOB (Front)  
IN  
OUT  
1/2  
3/4  
5/6  
7/8  
1/2  
3/4  
5/6  
7/8  
RS.422A  
RS.422B  
AUDIO  
WClk  
CVBS  
GPI  
LTC  
DIGITAL AUDIO  
OUT  
IN  
To serial port 1  
on workstation  
(for remote  
control of  
converter)  
Optical Cable  
ADAT Converter  
ADAT  
SYNC  
Analog Inputs  
AES/EBU In  
Out  
MIDI  
In  
ADAT Optical  
In  
Out  
In  
Out/Thru  
7-8  
7-8  
5-6  
3-4  
1-2  
1-2  
8
7
7
6
6
5
4
3
3
2
2
1
1
Word Clock S/P DIF  
In  
AES/EBU Out  
Analog Outputs  
110  
Out  
5-6  
3-4  
8
5
4
IN  
IN  
IN  
IN  
IN  
IN  
IN  
IN  
IN  
IN  
IN  
IN  
OUT OUT OUT OUT  
VTR  
Audio mixer  
Configuring the Lucid ADA 88192 Converter  
You must manually configure the Lucid converter for local control. This section describes how  
to use the controls on the front of the converter to adjust settings, and lists the proper settings  
for local control.  
42  
   
Connecting Audio Hardware  
Adjusting Lucid ADA 88192 Converter Settings  
You configure the converter through a series of setup menus that appear in the display on the  
front of the converter. Use the encoder dial and button immediately to the right of the display to  
navigate these menus and adjust settings.  
The top level setup menu contains the following menu items: ADAT, AES, Analog, Meter, Route,  
Sync, and System. Each of these menu items takes you into a submenu, from which you can  
select and adjust settings.  
The procedures below provide basic information on navigating and adjusting settings. If you  
require additional information, refer to the Lucid ADA 88192 manual included with your  
shipment.  
To navigate menus and adjust settings:  
1. Use the encoder dial and the button as follows.  
To:  
Do this:  
Select a menu option Rotate the dial to highlight the option, then press the dial to select  
that option. If the option you select has choices (as, for example, in  
the Route menu), rotate the dial again to move through the choices,  
and press the dial to select an option.  
Back up one level in Press the button.  
the menu tree  
Navigate to the top Press the button. Repeat until you are in the top level setup menu.  
level setup menu  
2. Make sure Lucid’s AES inputs are routed to both AES and analog outputs.  
To reset all settings to their factory defaults:  
1. In the top level setup menu, select System, then select Miscellany.  
2. In the Miscellany menu, select Defaults: RESET.  
All settings are reset to their factory defaults.  
NOTE: The factory default for the items in the AES setup menu is SRC ON. Local control requires  
these items to be set to SRC OFF. If you reset to defaults, be sure to manually set these items  
back to OFF.  
Lucid ADA 88192 Converter Settings for Local Control  
You must configure the following settings to control the converter locally. Any setting not listed  
here either has no effect with the application or can be set to any of the values available for it.  
43  
3
Connecting System Components  
Menu  
Menu Item  
Comment  
ADAT  
ADAT INs: SRC ON  
ADAT INs: SMUX OFF  
AES  
AES IN1+2: SRC OFF  
AES IN3+4: SRC OFF  
AES IN5+6: SRC OFF  
AES IN7+8: SRC OFF  
Analog  
Analog INs: SoftClip  
IN1+2: SoftClip ON  
IN3+4: SoftClip ON  
IN5+6: SoftClip ON  
IN7+8: SoftClip ON  
Analog  
Analog INs: Gain  
set each input channel to a  
value in the range  
-95.5 to +31.5 dB  
Analog  
Analog OUTs: Level  
set either -10 or +4 for each  
output channel  
Meter  
Route  
Clip Detect: 3  
3 is the recommended setting  
For analog audio:  
If these options do not appear, verify  
that Route Unit (in the System,  
Miscellany menu) is set to 8.  
AES INs --> ADAT OUTs  
Analog INs --> AES OUTs  
AES INs --> Analog OUTs  
For digital audio:  
AES INs --> ADAT OUTs  
AES INs --> AES OUTs  
AES INs --> ANALOG OUT  
Sync  
Internal OFF  
External AES 1+2  
External AES 1+2 is the recommended  
setting.  
System  
Route Unit: 8  
Miscellany  
44  
index  
Index  
A
air conditioning  
set of guides 6  
DVS I/O  
requirements 12  
audio  
hardware components 40  
wiring workflow 40  
connecting 36  
Autodesk control surface  
assigning an IP address 31  
configuration file 33  
connecting 28  
emulation, setting up VTR 38  
G
connecting 36  
grounding hardware 13  
guide  
B
BIOS settings  
HP xw8400 10  
breakout box  
connecting 36  
broadcast monitor  
connecting 36  
hardware  
breakout box 36  
DVS board 36  
C
configuration guidelines  
grounding hardware 13  
configuring  
Lucid ADA 88192 converter 42  
connecting peripherals  
workflow 15  
HD/SDI monitor 36  
HSDL device 39  
Slave Renderer 33  
video distributor amplifier 36  
VTR 36  
connecting system components  
hardware configuration guidelines 7  
HSDL device  
workflow 27  
connection diagram  
HP xw8400 16  
connecting 39  
control surface  
Autodesk control surface, connecting 28  
conventions, in guide 13  
I
installation  
overview 2  
45  
 
Index  
K
keyboard  
tablet  
connecting 18  
connecting 33  
L
Lucid ADA 88192 converter, configuring 42  
Lucid Converter ADA 88192 40  
video distributor amplifier  
video IO connections  
wiring for real-time deliverables 36  
VTR  
M
monitor  
connecting 17  
mouse  
emulation control cable 38  
emulation, setting up 38  
connecting 18  
N
network  
hardware setup and software installation 8  
workflow, audio wiring 40  
connection 19  
P
peripherals  
monitor 17  
mouse and keyboard 18  
network 19  
tablet 33  
power  
requirements 12  
R
real-time deliverables  
wiring 36  
RS-422 control cable 38  
S
SAN  
Stone Shared 18  
Slave Renderer  
connecting 33  
Stone Direct  
connecting 18  
Stone Shared  
connecting 18  
storage  
connecting 18  
46  

Hitachi Travelstar HTS545050A7E681 User Manual
GE Monogram ZGU385N User Manual
GE 22430 User Manual
Gateway FPD2185W User Manual
Gateway FPD1750 User Manual
Fujitsu Computer Hardware F2MC 8FX User Manual
Cypress CY7C1320CV18 User Manual
Bakers Pride Oven Cyclone GDCO E2 Double User Manual
Asus Z87 Motherboard 90MB0DT0M0AAY0 User Manual
Asus LCD Monitor VG278H User Manual