© 2012 Autodesk Autodesk® Simulation 360: Taking Full Advantage of the Cloud to Improve your Design Mike Smell Technical Consultant

© 2012 Autodesk Class Summary In this class, you will learn about how to apply the different components of Autodesk Simulation 360 cloud-based software to the design process. Using a single assembly, we will take advantage of structural analysis capabilities within Simulation Mechanical 360, fluid flow capabilities within Simulation CFD 360, and plastic analysis capabilities within Simulation Moldflow 360 to validate and improve the performance of the design.

© 2012 Autodesk Learning Objectives At the end of this class, you will be able to:  Implement Simulation 360 as part of your design process  Perform a structural simulation with Simulation Mechanical 360  Perform a fluid and thermal simulation with Simulation CFD 360  Perform an injection molding simulation with Simulation Moldflow 360

© 2012 Autodesk Agenda Today we will cover:  What is Autodesk 360 and Simulation 360?  Benefits of the Cloud  Cloud Security  Simulation 360 in Action  Q&A

© 2012 Autodesk What is 360?

© 2012 Autodesk What is Autodesk 360?  Broad set of features, cloud services and cloud-enabled products  Dramatically improve the way you design, visualize, and simulate  Share your work with others anytime, anywhere Autodesk SIM 360 Autodesk BIM 360 Autodesk PLM 360

© 2012 Autodesk What is Simulation 360? Proven Simulation Technology in the Cloud

© 2012 Autodesk Benefits of the Cloud

© 2012 Autodesk Benefits of the Cloud Compute Power  Optimization within the reach of the masses Total Cost of Ownership  Reduced capital costs – pay as you go Access & Experience  Install and login from anywhere

© 2012 Autodesk Cloud Security

© 2012 Autodesk Cloud Security – How Is Your Data Protected? Informational Security  Data protection during transit and while static on the cloud Physical Security  Data protection at the server site  i.e. protection from theft, vandalism, fire, flood, etc. Operational Security  Data protection from personnel that can access the server site

© 2012 Autodesk Cloud Security – How Is Your Data Protected? Autodesk’s 360-degree approach to protecting your data includes: Secure facilities  World-class datacenter facilities in the United States  Employ industry-standard methods for operations and physical security Security professionals  Autodesk team of cloud operations and security professionals develop and enforce the security policies for Autodesk 360  Specialists in information, application, and network security

© 2012 Autodesk Cloud Security – How Is Your Data Protected? Autodesk’s 360-degree approach to protecting your data includes: System and operational security  Firewalls to protect data at the access layer and service host computers  Host computers are purpose-built, validated, and installed with only the resources to supply Autodesk 360 services File and data protection  All data is encrypted with industry-standard https protocol encryption  Same security standard used by banks, brokerages, and e-commerce companies to protect transactions

© 2012 Autodesk Cloud Security – How Is Your Data Protected? Autodesk’s 360-degree approach to protecting your data includes: Secure user authentication  Industry-standard authentication - including tokens, login name, and password to verify access

© 2012 Autodesk Cloud Security – How Is Your Data Protected?

© 2012 Autodesk Simulation 360 in Action

© 2012 Autodesk Graphics Card Design Process: Simulation 360 in Action

© 2012 Autodesk Moldflow 360 Challenge:  Determine optimum plastic material and process settings for fan and cover plate Solution:  Perform gate location analyses  Perform molding window analyses to determine the ideal plastic material  Perform FPW analyses and DOEs to find optimum process settings

© 2012 Autodesk Mechanical 360 Challenge:  Determine natural frequencies of graphics card assembly  Evaluate graphics card assembly’s response to G loading  Evaluate snap fit design at card to motherboard connection Solution:  Perform a modal analysis  Perform static stress analyses for multiple load magnitudes and directions  Perform a MES contact analysis on the snap fit connection

© 2012 Autodesk CFD 360 Challenge:  Evaluate different flow rates fans to maintain board operating temperatures Solution:  Perform multiple fluid and thermal analyses using the centrifugal pump/blower material to represent the fan

© 2012 Autodesk Question and Answer

© 2012 Autodesk Where to Learn More?

© 2012 Autodesk Autodesk, AutoCAD* [*if/when mentioned in the pertinent material, followed by an alphabetical list of all other trademarks mentioned in the material] are registered trademarks or trademarks of Autodesk, Inc., and/or its subsidiaries and/or affiliates in the USA and/or other countries. All other brand names, product names, or trademarks belong to their respective holders. Autodesk reserves the right to alter product and services offerings, and specifications and pricing at any time without notice, and is not responsible for typographical or graphical errors that may appear in this document. © 2012 Autodesk, Inc. All rights reserved.