© 2011 ANSYS, Inc. October 24, 20112
Insertimagehere
“ANSYS simulation software is incredibly reliable and accurate.
Simulation enables us to drastically reduce lead times and get
solutions to the circuit much quicker, so we are more competitive
race to race.”
A promise that it will perform properly, not fail unexpectedly, and even exceed
the expectations of its designers and users. ANSYS helps power these promises with
the most robust, accurate and flexible simulation platform available.
Steve NeveyBusiness Development ManagerRed Bull Technology
Every Product is a Promise
© 2011 ANSYS, Inc. October 24, 20113
Our Advantages
Industry SolutionsValue‐Added Services
Global SupportFitFit
VisionCompany Strength
IndependenceFoundationFoundation
Unequalled DepthUnparalleled Breadth
Comprehensive MultiphysicsEngineered Scalability
Adaptive Architecture
Products/TechnologyProducts/
Technology
© 2011 ANSYS, Inc. October 24, 20114
Increasing Investment in R&D
Millions
110
100
80
60
40
20
0
Fluent
Year1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010
ICEM CFD
CFXCDI
Ansoft
Investment In Acquired R&D
Internal Investment In R&D
Over 500 Developers in 2010
© 2011 ANSYS, Inc. October 24, 20115
Leading Provider of Power Simulation Solutions
Power–efficient Electronics
Users: IC/system designers
All 20 of the top 20 semicompanies(a)
Consistent growth
CF positive, profitable
Markets Customers Performance
(a) According to iSuppli 2010.
Revenue ($M)
2006 2007 2008 2009 2010
Mobile
Data centers
Consumer & computing
Automotive
IntelSamsungToshibaTIRenesasHynixSTMicronQualcommElpida
BroadcomAMDInfineonSonyPanasonicFreescaleNXPMarvellMediaTeknVidia
© 2011 ANSYS, Inc. October 24, 20116
Click to edit Master text styles
Consolidated Company Geographic Revenue
Percent of Net Sales Revenue by Industry
Academic8%
Aerospace & Defense17%
Automotive15%
BioMedical2%Construction
2%Consumer Products
2%
Electronics19%
Energy and CleanTech10%
Industrial Equipment13%
Materials & Chemical Processing
12%
Americas34%
Asia32%
Europe34%
Our Balance
© 2011 ANSYS, Inc. October 24, 20117
CompetitionCost Constraints
Lawsuits/WarrantyProduct Innovation
Customer Expectations
Energy AvailabilityTime to MarketProduct LifecycleSkilled Labor
Customer Pressures
Margin for Error
© 2011 ANSYS, Inc. October 24, 20118
Top Business Pressures Driving Product Design Improvement
Biggest Hurdles for Product
Design
Getting Product Designs RightSource: Aberdeen Group, April 2011
© 2011 ANSYS, Inc. October 24, 20119
Smart Products/Smart Processes• Interconnected systems • Adapt to environment• Adapt to user• Lack test experience
Smart Products Drive Complexity
Image of wind turbine system
“Today’s increased complexities require a system‐level approach in
designing wind turbines and evaluating performance based on
real‐world conditions.”
Ahmad HaidariGlobal Industry Director Energy and Power ANSYS
© 2011 ANSYS, Inc. October 24, 201110
Variation Is The Real World• Intentional Variation• Random Variation• Unlimited Test
Combinations
Confidence for the Real World
“Companies often focus on time to market, but the advantages of fast product introduction
may be quickly overshadowed by the huge cost of poor quality, resulting in product recalls,
rework, warranty payments and lost business from negative brand image.”
Andreas VlahinosPresidentAdvanced Engineering Solutions
Robust Systems Design Process
Sequential Design Process High Safety Factors
© 2011 ANSYS, Inc. October 24, 201111
Optimum Processes Amplify Engineering Impact
“Most high‐technology companies now realize the potential benefits of simulating the
performance of their products. They also clearly know that performing analysis early in the
design cycle has the potential to identify and solve design problems much more efficiently and
cost effectively compared to handling them later.”Fereydoon DadkhahSenior EngineerDelphi Electronics & Safety Systems
Design change cost
Design change cost
Traditional analysis and CAD
# of problem resolution[N(p)]
Development phase
Conventional design, build, test
ANSYSSimulation‐Driven Product Development
Design change cost
© 2011 ANSYS, Inc. October 24, 201112
Our Vision: Simulation Driven Product Development
Concept & Design
PhysicalPrototype
Production
Simulation‐DrivenProduct Development
Concept Design PhysicalPrototype Testing Analysis Production
CAD CAE CAM
Yes
No
© 2011 ANSYS, Inc. October 24, 201113
Click to edit Master text stylesDemocratize Simulation
Process Automation
Enable Best Practices
Focus on Engineering
Complete Systems
Simulated Environments
Multiphysics
Fluids Dynamics
Structural Mechanics
Explicit Dynamics
Low‐Frequency Electromagnetics
High‐Frequency Electromagnetics
Thermal Mechanics
Acoustics
Span Organizational and Geographic Silos
Share Engineering Insights
Better Decisions Faster
Our Strategy
© 2011 ANSYS, Inc. October 24, 201114
System “V” Development Process
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
© 2011 ANSYS, Inc. October 24, 201115
Comprehensive Capabilities TodayExample: Hybrid Electric Vehicle System
© 2011 ANSYS, Inc. October 24, 201117
Development Focus R14 R15 R16 R17
Convergence of Fluent and CFX Solvers
Expand Two‐way Multiphysics Solutions
Advancements of HPC Performance
Core Solver Capabilities and Robustness
Systems Roadmap ‐ Physics
Strategic Intent: Accurate analysis of all the physical phenomenon acting on and within the system.
© 2011 ANSYS, Inc. October 24, 201118
Systems Roadmap ‐ Users
Strategic Intent: Enable multiple users to collaboratively define and solve complex system designs.
Development Focus R14 R15 R16 R17
EKM Model Libraries
EKM Collaborative Multiphysics
Intuitive User Environments
© 2011 ANSYS, Inc. October 24, 201119
Systems Roadmap ‐ Fidelity
Strategic Intent: Provide appropriate simulation focus and resolution based on application objective.
Development Focus R14 R15 R16 R17
Robust Design Solutions
Expand Reduced Order Model Creation by 3D Solvers
Modelica and VHDL‐AMS Library Support
© 2011 ANSYS, Inc. October 24, 201120
Systems Roadmap ‐ Scale
Strategic Intent: Solve models of different fidelity and size automatically in a unified environment.
Development Focus R14 R15 R16 R17
Expand Co‐simulation between 3D and 0D Solvers
System File Management by EKM
Material Modeling
© 2011 ANSYS, Inc. October 24, 201121
Click to edit Master text styles
• Available in Q4, 2011
• Update presentations during technical tracks
• Material will be available on the customer portal following the release
Announcing ANSYS 14.0
© 2011 ANSYS, Inc. October 24, 201125
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
Platinum Sponsors
Gold Sponsors
OEM Sponsors
© 2011 ANSYS, Inc. October 24, 201128
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
© 2011 ANSYS, Inc. October 24, 201130
Click to edit Master text styles
The following slides should be used to customize the presentation to particular industries and partner sponsors for each event.
Customization Slides
© 2011 ANSYS, Inc. October 24, 201131
System Process “V”
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
© 2011 ANSYS, Inc. October 24, 201132
System “V” Development Process
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
© 2011 ANSYS, Inc. October 24, 201133
System “V” Development Process
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
© 2011 ANSYS, Inc. October 24, 201134
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
Santa Clara
© 2011 ANSYS, Inc. October 24, 201135
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
Toronto
© 2011 ANSYS, Inc. October 24, 201136
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
Boston
© 2011 ANSYS, Inc. October 24, 201137
System “V” Development Process
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
© 2011 ANSYS, Inc. October 24, 201138
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
West Palm Beach
© 2011 ANSYS, Inc. October 24, 201139
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
Gold
OEM Sponsors
Detroit
© 2011 ANSYS, Inc. October 24, 201140
Click to edit Master text styles
ANSYS would like to thank the following partners for sponsoring this event
Platinum
Gold
OEM Sponsors
Chicago
© 2011 ANSYS, Inc. October 24, 201141
System “V” Development Process
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design
© 2011 ANSYS, Inc. October 24, 201142
System “V” Development Process
System Acceptance
Sub‐System Integration& Verification
Component Integration& Verification
ComponentOptimization
Requirements& Specifications
System Topology& Layout
Sub‐System Options& Design