1. Supplier Collaboration
Kent Kingston – Account Champion

2. Agenda
JT File Format
JT Open Program
ISO Certification
Customer Use Cases

3. JT is the common language for PLM
Why JT
Lightweight for Hi-performance collaboration
Exact for 100% precision interrogation
CAD-neutral to enable multi-CAD environments
Architected for configured PLM workflows
Advanced graphic support for performance and realism
JT2Go for no-charge, downstream viewing
JT is the common language for PLM
CAD for Authoring / Editing - JT for Everything Else

4. Visualization Across All Industries
12 of
Top 16
Automotive
Aerospace
High Tech. Electronics
Ship Building
Machinery
Mfg Facilities
Medical Devices
18 of
top 20
15 of
top
Teamcenter Visualization has broad adoption across all product development industries.
The most important thing to note is that our customers in these industries use our software every day to get their products to market faster. With 600,000 licenses of Visualization software on active maintenance and over 4 million JT enabled PDM seats, Teamcenter Visualization is in production use at more companies than any other visualization solution – period!
Production Proven!

5. The JT Pipeline Breadth & Depth to Support Your Processes
Number of Users (Proliferation)
Data & Process Complexity
Styling Review
Immersive Design Review
Common
“Visualization pipeline”
throughout the extended enterprise
Ergonomics
Virtual Factory
Virtual Functional Build
Assembly Validation
Quality Validation
Spatial Digital Validation
CAE Results
Formal Design Review
PMI
PLM Workflows
Introduce our vision/mission of providing a 3D front end to the extended enterprise.
Each image (except General Viewing and No-charge viewing) points to an AVI. No need to show every one or talk about each.
When we talk about the product lifecycle visualization, we think about it as a pipeline. A pipeline connecting Creators with Consumers, OEMs with Suppliers, and even our products with our competitors.
The JT pipeline is a way to describe the streams of data that reach out to everyone in the extended enterprise. You can see by the development processes outlined on this slide that the needs of the lifecycle range from sophisticated to serve the needs of high-value specialists to basic consumption that serves a broader audience.
Each image is an AVI:
Immersive Digital Mockup (Concept) – Visualize and evaluate products in real-time from an aesthetic and functional perspective to make better decisions earlier in the development process. The core of New Product Development Initiatives is meeting the needs of the “voice of the customer” and if you don’t validate those needs until you go to market you could miss the mark
Tolerance Simulation (Vis VSA) - Because we know that real products don’t behave like our perfect digital models, our customers have identified the need to sort out potential tolerance issues – early – when they’re a lot cheaper to resolve
Virtual Factory (Tecnomatix Factory Mockup) - Validating a factory digitally has untold values. Of course, you can’t realistically build a physical prototype of a production facility so leverage our tools that can handle these massive amounts of data but are also cognizant of the spatial relationships of all the various components and can be simulated for clearances and process flows.
Ergonomics (Jack) - One of the most expensive aspects of the development process is building prototypes to evaluate ergonomics for human interaction. Putting digital humans into the evaluation process allows you to catch errors that you may not catch until after you launch a product resulting in expensive recalls.
Assembly Validation (Visualization Animation) – Create animations to articulate how parts are assembled. Annotations make it easy to understand. These animations can replace or be added to process documents (created in Teamcenter Visualization Publish).
Quality Validation (Visualization Quality) - Again, that theoretical perfect characteristic of the digital world isn’t the whole story. Here we can evaluate the actual CMM inspection data to see how far we are off and compare to the tolerance set forth in the design.
Clearance Analysis (ClearanceDB) – One of the critical tasks in Digital Mockup is analyzing the clearances and interferences present in the model. Visually, these are difficult if not impossible to detect. In CAD it could take days to calculate. Here we can identify part pairs that interfere and even set rules as to what things to flag for the future.
CAE Results (Visualization Professional) - A new capability that our customer have been driving for is the ability review the results of those valuable analyses in a way that can actually be interactive vs. the static images that they usually get. Here reviewers can actual navigate a model and consider the results in the context of the surrounding geometry, taking measurements or collaborating and sharing markups or visual issues.
Technical Publishing (Visualization Publish) - has traditionally been one of those groups that has been disconnected from the Visualization Pipeline. Even today they’re beginning to embrace 3D but are still isolated with different tools and file formats. The ideal scenario is for them to tap into the same pipeline of data that the rest of the organization is using so they can ensure that their documents are in sync with changes that occur throughout the development process.
General Viewing (Teamcenter Visualization Base & Standard) – Enables everyone in the enterprise to see 3D data and to add markups to collaborate.
No-charge Viewing (JT2Go) – Connects the rest of the supply chain, people who may not have our visualization products to view JT files.
Technical Publishing
2D/3D View & Markup
Supplier
Viewing
Interoperable
Design

6. Teamcenter Visualization Products
JT2Go
Basic 3D Measure
Basic 3D Section
PMI
Free download from
Teamcenter Visualization
Publish
Mockup
Concept
Professional
3D Coord. System
3D Compare
3D Transform
3D Manipulator
Consolidated X Section
Exploded View
Outline Capture
CAE Results Viewing
Export JT, VRML
Export PLM XML
Fly Mode
Export Nastran, Alt. Hier.
Callout & Symbol Mgr
Thrustline Editor
Stereo Viewing
6 DOF Devices
Static Clearance
Dynamic Clearance
Filters
3D Alignment
Groups
Export Attribute List
Model Optimizer
Mass Properties Report
Color Applicator
Volume Clipping
Hide Obscuring
Movie Capture
Standard
Path Planning
Base
Adv. 3D Measure
3D Markup
PMI Viewing
Snapshots
Layer Filter
Walk/Explore Mode
Attributes
Read VRML, STL, NX
Advanced Measure
Part Selection
3D Layer Control
ClearanceDB
BREP Support
Full 2D View & Markup
Advanced Printing
Conferencing
Session Support
2D Measure
2D Layer Control
Basic 3D Nav, Mea, Sec
Product Structure
Tc Connectivity
Single Sign On
VSA, Quality
Animation
Analysis
Jack

7. What is Ultra-Lightweight Precise? But First: What is JT?
Introducing JT9
Master Design Definition
Design Intent
Feature Creation History
Intellectual Property
Synchronized Collaboration
Common 3D Language of PLM
Puts 3D in the Hands of Non-CAD Users
Supports All Major CAD Systems
Ultra-Lightweight for internet collaboration
Ultra-Precise for most use cases that don’t require “exact” geometry
Infinite Visual Precision for technical illustrations
Still Protects Intellectual Property
Tolerance & Mfg data in 3D context
Eliminate the need for 2D
Keep Mfg in sync with Design
Design Definition
CAD
Attributes
Exact BREP JT
PMI JT
As precise as CAD – 100% exact
Enables exact measurements for making design decisions
Lightweight 1 2 …
Level Of Details (LODs)
CAD Parameters and Attributes
PDM Metadata
ULP
Fast Load / Hi-performance
Extremely Large Assemblies
Reduced N/W Bandwidth for Collaboration
AutoCAD

8. JT Technology - Streaming
Load Only What’s Needed to Improve Performance
BREP
PMI
153
LOD 2
LOD 1
LOD 3
User requests PMI
User requests a measurement
Streaming Server
Vault
Optimized delivery (up to 50x faster)
Lightweight delivery supports wireless devices
“Late-load” data (BREP & PMI) only loaded when needed
Large model interaction on low-end computers
Lower network bandwidth - only the data needed
Increased security - JT stays on the server
Streaming takes advantage of the different levels of detail as well as the segmented nature of JT.
Levels load incrementally adding additional detailed LODs as time goes by.
BREP (the heaviest data) is not even loaded unless a user requests a precise measurement.
PMI is also loaded only by request of the user.
Visual Level Of Details (LOD)
Attributes
PMI
BREP
Constraints 1 2 3

9. Ultra-Lightweight-Precise JT
Ultra-lightweight - Minimum file size for faster collaboration
Ultra-precise – 99.9% of CAD accuracy. Appropriate for most use- cases where exact BREP is not required
Visual Fidelity – Visual Fidelity is infinitely refinable for accurate illustrations
XT B-rep
Low LOD
High LOD
Med LOD
ULP 
Uncompressed by recipient
Compressed for transport

10. Infinite Visual Precision
JT with XT Brep, PMI
320 KB
Ultra lightweight JT with PMI KB
Infinite Visual Precision!
1/10 the size!
Infinite Visual Precision!
Infinite Visual Precision

11. File Sizes with ULP 2,604 KB Relative file size 320 KB (12.3%)
NX part size
2,604 KB
Enterprise JT (XT B-rep, 3 LODs)
320 KB
Remove PMI and low level LODs
50.9 KB
Using ULP (including PMI!)
32.7 KB
Relative file size
CAD
Enterprise JT
XT B-rep: 47%
Low LOD: 3%
High LOD: 36%
Med LOD: 12%
PMI: 2%
ULP
PMI
Ultra-lightweight JT
ULP
320 KB (12.3%)
32.7 KB (1.3%)

12. Ultra-Lightweight-Precise (ULP) Component Lightweight Supplier Collaboration
Visualization User
“Send to” Supplier via wizard
CAD
Design Definition
Exact BREP JT
Med LOD
ULP JT
PMI
Exact BREP JT
ULP
Attributes
Discrete LODs
JT2Go or TcVis
Levels Of Detail (LODs) 1
Teamcenter Managed Data Access 2 JT
ULP …
ULP
Supplier
Doc’s
Drawings
Etc…

16. JT Open Program

17. The JT Open Program Today
A unique community of software users and independent software vendors committed to the widespread adoption of a single, open and preferred 3D visualization platform based on JT technology.
Members
Corporate
Software Vendors
Academic
Advocates
JT Open Toolkit
JT Format
Reference
Management Review Board (MRB)
Technical Review Board (TRB)
How do you get the JT Open Toolkit
JT Open Program 17

18. JT Open Program Members
Corporate Members
Boeing
Nissan
Bowers & Wilkins
PATAC
Caterpillar
Procter & Gamble
Chrysler
Renault
Daimler
Robert Bosch
Dana
Rolls Royce
DENSO IT
Siemens
Ford
Suzuki
Freightliner
Speedshape
General Motors
Tata Motors
Honda
Visteon
Mazda
W.E.S.T Eng
Magna International
VW Audi
Corporate Members
Academic Members
Shanghai Jiatong Unv
Villanova Unv
Unv of Michigan
Unv of Texas, El Paso
Purdue
Heriot-Watt Unv
Brigham Young
Unv of Edinburgh
Iowa State
Unv of Ontario
Unv of Tulsa
Prarie View A&M Unv
Northwestern Unv
Darmstadt Unv
AcademicGroups

19. JT Open Program Members
Vendor Members
Actify
Landmark Tech
Adobe
Okino Graphics
Altair Engineering Inc
PTC
Asahi Electronics
ParallelGraphics
Autodesk
Perspectix AG
Bently Systems
Piterion GmbH
Beta CAE Systems
Proficiency Ltd
Bunkspeed
Realtime Technology AG
B2GEN
Right Hemisphere
CD Adapco
Siemens
Computational Engineering
SpaceClaim Corp
Computer Sciences Corp
Spatial Integrated Systems
CT CoreTechnologie GmbH
Spicer Corp
Dowl System Co., Ltd
Tech Soft America
DTL Corp
Teraport GmbH
Elysium
Theorem
ICIDO GmbH
Transmagic
Icona Solutions Ltd
T-Systems Enterprise
Infiscape
Trubiquity
Innovmetric
Vision Software AB
Advocate Members
Microsoft HP
Intel
SAP
Advocate Members
Vendor Members

20. JT Open Program Review Boards
Opportunity to participate on two Review Boards
Management Review Board (MRB)
Technical Review Board (TRB)
Boards meet twice a year, spring and fall
Both boards have an elected chairperson and membership
MRB’s primary charter is proliferation of JT to reduce operating costs through industry adoption of a common format for visualization, collaboration and publication.
TRB’s primary charter is to provide technical guidance to assist the MRB in achieving their objective
Boards meet twice a year, invitation only

21. JT Open Toolkit
The JT Open Toolkit is a C++ API that provides access to all JT file content
Used extensively for JT translator development but is also being used for publishing, visualization and interoperability applications
Product Manufacturing Information (PMI) control
Geometry control
Properties and attributes
Config file management
File importer / exporter
Utility/General convenience
The toolkit provides full access to all the data available in a JT file
It is used by both UGS and our ISV JT Open Programs members like Theorem, T-Systems and Right Hemisphere, Elysium, Okino Graphics primarily to create translators but with the increase in membership for the JT Open Program it is being used by visualization products like Opticore, Alias and CAE vendors like Beta CAE and Altair and we are currently pursuing additional CAE and CAM vendors to participate in the program

22. JT Open Program Accomplishments
JT File Format Reference
300 pages
11 Tables
195 figures
JT File format binary definition is published, this was done at the request of our membership
JT Open members and the general community supporting JT said we would not truly be open until we publish the format
We are now in the process of bringing JT to ISO for adoption as the standard format for 3D visualization. We are hoping to complete this process this year.
Ask for support …

23. After almost 2 years download is still heavy
JT File Format Reference Website Activity
JT File Format Reference Webpage data
In July, 620 users viewed the JT File Format Reference
After almost 2 years download is still heavy 23

24. JT Open Program Accomplishments
Siemens Corporate Technology has facilitated the adoption of JT as the Corporate Long Term Data Retention (LTDR) format
March 3, 2008 Press Release
Siemens AG Selects 3D JT Data Format as Global Standard for Long-Term Data Retention
Collaboration
Publishing
3D LTDR
Product Styling
Multi CAD Env.
Some accomplishments from the program …
Siemens JT SIG created this chart showing where JT is utilized in our processes
Siemens has announced their adoption of JT as the standard for LTDR
Daimler has also acknowledged JT as the format of choice for LTDR as have several other JT adopters
LTDR is a hot topic as the majority, selection of a format to archive is only a small (while very important)part of a complete data retention process. JT
Application
Areas
(Source: Siemens JT SIG)
Digital Factory
Product Data Viewing
Source: Siemens JT SIG
3D Dwgs (PMI)
CAE / CAM
JT Based Applications
DMU (Digital Mockup)

25. JT Open Program Accomplishments
SIEMENS PRESS RELEASE
Siemens Corporate Technology has facilitated the adoption of JT as the Corporate Long Term Data Retention (LTDR) format
March 3, 2008 Press Release
Siemens AG Selects 3D JT Data Format as Global Standard for Long-Term Data Retention
Collaboration
Publishing
Press release from Siemens on adoption of JT as a long term data retention format
Product Styling
Multi CAD Env.
3D LTDR JT
Application
Areas
(Source: Siemens JT SIG)
Product Data Viewing
Digital Factory
Source: Siemens JT SIG
3D Dwgs (PMI)
CAE / CAM
JT Based Applications
DMU (Digital Mockup)

26. JT For Supplier Collaboration
JT data is being proposed as the single source of data exchanged for supplier collaboration in Multi CAD environments
Multi CAD workflows can make use of JT as reference data without converting to native CAD
OEM 3
Offshore
Global
A very important part of JT use is for supplier collaboration
The automotive community driven by work in ASG as well as the JT Open Program are investigating using JT as the only data exchanged between OEM and supplier.
The intention is to use JT as much as possible for reference in a Multi-CAD environment only converting it to native geometry when necessary
Siemens PLM has a product offering called Synergy which provides an out of the box solution for this workflow.
Supplier
OEM 1
OEM 2

27. JT Open ISV members by Categories
CAD
CAE
Translators
Visualization
Bentley Systems
Altair Engineering Inc
Elysium
Actify
Autodesk
Beta CAE Systems
CoreTechnologie GmbH
Adobe
PTC
CD Adapco
Innovmetric
Bunkspeed
Siemens
Okino Graphics
SpaceClaim Corp
Proficiency Ltd
Icona Solutions Ltd
Infiscape
Theorem
Landmark Tech
TransMagic
ParallelGraphics
T-Systems Enterprise
Right Hemisphere
Vision Software AB
Spicer Corp

28. JT Open ISV members by Categories
High End Visualization
Services
Toolkit
CAM
Autodesk
Asahi Electronics
Tech Soft America
DTL Corp Mori Seki
CEI Computational Eng. Inc.
B2GEN
Siemens
ICIDO GmbH
Computer Sciences Corp
RTT Realtime Technology AG
Dowl System Co., Ltd
Perspectix AG
Piterion GmbH
Spatial Integrated Systems
Teraport GmbH
Trubiquity

29. ISO Certification

30. Moving Forward with JT …
JT as a global standard
JT is being evaluated as the standard format for 3D Visualization by ISO TC184/SC4
ProSTEP iVip is proposing JT for PDM Data Exchange based on non-native CAD
Plans to propose JT as a VDA standard

31. Formal schedule now defined for format evaluations
JT and ISO update
Formal schedule now defined for format evaluations
Resolution to have all format evaluations completed by March 31, 2009
RESOLUTION 760 (Busan, South Korea - November 2008)
Progress of Visualization ad hoc Group
Resolution: SC4 notes that the 3D Visualization ad hoc group has made significant progress at this meeting in moving forward the harvesting process for visualization formats. In acknowledgement of this effort SC4 directs the 3D Visualization ad hoc group to complete the assessment of the candidates and provide the summary report no later than SC4 directs the Chair and secretariat to initiate the PAS ballots for the candidates which pass the qualification process immediately after the delivery of the committee report. 31

32. JT and ISO update
High level summary of meetings on 3D Visualization and ISO/JT adoption held at the 56th ISO TC 184/SC4 Meeting
Time line is defined for completion of activates required to conduct balloting on 3D Visualization formats to be adopted by ISO as standards
Assessments of candidate formats will be conducted to compile a summary report of 3D Visualization formats
All assessments and evaluations will be completed by the ad hoc 3D Visualization format selection committee
The summary report will be used as part of an ISO ballot package
Balloting will take place to select formats which will be accepted by ISO as capable to support the 3D Visualization Requirements defined in TC184/SC4 N2539

33. ISO Progress timeline Balloting is complete
Dec
Jan
Jan
Feb
Feb
March
March
June 2009
Balloting is complete
Ballot summary defines format(s) to be harvested as PAS ISO documents
Committee report is prepared
ISO Secreatariat posts as a P member ballot
Format assessments are conducted by the ad hoc Format selection committee
Representatives for each format will conduct sessions presenting their format
Team members complete a 36 item survey giving values of 0-5 based on level of compliance to the requirements
Time line history, how we got to where we are with ISO
All candidate format specifications to be provided to ISO with agreement to requirements for transposing externally developed specifications into ISO deliverables. Candidate formats are JT, U3D, X3D, 3D-XML and Collada

34. ISO Format Selection Committee
Name
Company
Format 1
King Yee
Boeing (Chairperson) 2
Mike Zink
Siemens JT 3
Don Brutzman
US Navy
X3D 4
Marc Jablonski
Lattice 3D
XVL 5
Terrence McGowan
Boeing
U3D 6
Faure Pierre
Dassault Aviation
3DXML 7
Rita Turkowski
Intel
COLLADA 8
Yukiko Ogura
ITSCJ (Information Technology Standards Commission of Japan)
MPEG-4 9
Akihiko Ohtaka
Unisys 10
Atsuto Soma
Elysium 11
Carol Tierney
GDLS (General Dynamics Land Systems) 12
Jean Yves Delaunay
Airbus 13
Han Soon Hung
KAIST (Korean Advanced Institute of Science and Technology) 14
Hisayo Nakatsuka
Micro CAD 15
Jun feng Zhan
CNIS (China National Institute of Standardization) 16
Kirk Gould
Adobe 17
David Leal
CEASAR Systems 18
Lothar Klein
LK Software 19
Masahiro Akiyama
Armonicos 3D CAD 20
Masaru Suzuki
JIPDEC (Japan Information Processing Development Corporation) 21
Max Ungere
ProSTEP 22
Michael Kaplan
Mental Images 23
Oscar Rocha
Renault 24
Raj Iyer
US Army 25
Ron Wood
NGC Northrop Grumman Corporation 26
Vaino Tarandi
Eruostep

35. Customer Use Cases

36. JT Customer use cases - ATK Launch Systems

37. JT in Industry
Automotive –Daimler
JT data is stored in the EDM system Smaragd which is accessible for all use cases

38. JT in Industry
Aerospace - Rolls Royce
All PLM users at Rolls-Royce (approximately 5,000) utilize JT
JT is automatically created for every master model by the Evaluation, Pre-Release and Release workflows
Heavy Machinery – Caterpillar
JT is the enabler for Visualization at CAT sites generate JT’s, 150,000 attempts/mo, ~98% JT Availability
Consumer Products – Procter & Gamble
JT is at the heart of a diverse suite of collaboration tools
Multi-CAD support with JT, Lifecycle Visualization, JT2Go, Appshare, Visual Conferencing Teamcenter Community, Teamcenter Enterprise