1. www.nafems.orgwww.incose.org SMSWG Meeting 03/29/2016 Emerging Standards - Discussion 1 2016-03-29

2. Challenges for industry Increased product complexity Reduce time-to-market Promoting collaboration among multiple engineering disciplines Integrating complex systems engineering processes Enabling the sharing of intellectual property among globally dispersed teams, companies and industries. Managing costs while still ensuring that performance objectives can be met. 2

3. System Modeling and Simulation per SMSWG Terms & Definitions 3 System Modeling and Simulation (SMS) is defining a common engineering framework and virtual environment enabling upfront optimization of a product, system or process, IP management, decision making and speed of execution. This is achieved by being able to predict through simulation behavior, efficiency and performance upfront and real-time virtually. Subsets of SMS are, for example, SLM, PLM, PLE, ALM, digital manufacturing, business analytics, etc. It combines the worlds of traditional CAE and System Engineering on a new level. SMS creates an all-inclusive umbrella for bringing all engineering areas together from a product, solution and / or ecosystem point of view.

4. Model-based SE approach * Test cases Component Early Integration Model Environment model Model Common Test cases Common Test cases Hardware integration & test Reality meets model Validierung der Anforderungen Model Environment model Model Emulation Eg. Incoming inspection / acceptance Simulation with virtual models Component Verifikation des Systems Model Environment model * Unity AG

5. Business Process View | Solution Approach > Collaborative System Engineering * Systems/OEM Engineering Multidisciplinary Model Based Systems Engineering Early Virtual Systems Validation (Functional Mockup) Disciplines/Supplier Engineering Software/Electronics/Mechanical Eng. Product Needs R equirements Management F unctional Analysis L ogical Architecture Design P hysical Design Validation Verification Integration Unified Process Management & Traceability (Governance) Virtual/Real RFLP: PLM for Systems

6. Requirements System Architecture Sub-System & Component Development Test & Verification Calibration, Diagnostics, Manufacturing Systems Engineering Pains (Automotive example) Embedded Software LINSpector Vector CANALYSER Vector CANape Vector CANoe AMESim SimPack MathCAD GT suite TESIS VeDyna MPLAB MINT GENTX LABCAR ETAS INCA StarFrec IVS ITS EDIABAS Code Editors… Compilators … Flasher… Doors eDoc MS Word Sodius Geensys Volcano Adams Bus Archi. MS Office Core Entreprise Architect Caliber Matlab Simulink Microgen HIL Dspace Matlab Simulink Autobox Dspace Target link Dspace Rhapsody Matlab Simulink QA-C … … … … … … Heterogeneous Data Bases “The Glue” Requirement Central F/L Editor System Experiment Manager Logic Control Modeler BPA Safety Logic Control Modeler Dynamic Behavior Modelling Dynamic Behavior Modelling 3D for Systems

7. FEOBCONCEPTADV. ENG.ENG.MFG. ENG.S.A.S. Integration into PLM and Customer Link Work-in-Process Below the Line Enterprise Process Above the Line Workflow WIP Transactional Released Collaborative Highly Iterative Highly Iterative Requirements Finance PDM CAD eBOM Warranty ERP Program Mgt Program Mgt mBOM PLM CAE Test Data Management Test Data Management Methods Templates Scripts Statistical Customer Content Customer Content Sim Product Structure Engineering Reports Engineering Reports FEM Methods Abstracted Geometry Abstracted Geometry SLM

8. Engineering Areas / Disciplines throughout the Life Cycle* In-the-Loop Management Requirements Quality Change management Supply chain Program management Maturity ►R&D ►Design ►Release ►Production ►Retire Simulations / Analysis ►Virtual design ►Virtual Testing ►Virtual manufacturing ►Risk assessment / certification of correctness ►End-of-life ►Costing ►Trade-off studies Assessments ►Market ►Requirements ►Quality ►Performance Enabling foundation ►Organization ►Culture ►Collaboration ►Communication ►Process ►Integration ►Traceability ►Impact Analysis ►Validation ►Verification ►Unification ►Technology ►Infrastructure ►Tools ►Common ►Flexible ►Advanced 3D Models Big Data Internet of Things Model-based Enpterprise * Courtesy of Dana Holding Corp.

9. Overall goal of the FMI project in the Modelica Association: Tool Interoperability Model-/Software-/ Hardware-in-the-Loop Co-Simulation & Tool Interoperability FEA of brake disc & Tire Hydraulic System Chassis e.g. Abaqus e.g. Adams e.g. Dymola © Modelon

10. Co-Simulation Work Flow Context Model Management Real Code (HIL) Software (SIL) Model (MIL) Controller (Discrete) Physical Logical Plant (Continuous) Hierarchical abstractions Scenario Management ►Scientific workflow ►Automation ►Optimization / MDO ►Design Exploration ►Stochastic Drivers ►Quality Methods ►Approximations ►Multiphysics Execution Engine Simulation Scheduler & Backplane HPC Solvers … … Simulation Composition On premises On the Cloud Mobile Results Experience Define Execute Com.1 Sim.1 Com.2 Sim.2 Com.n Sim.n

11. Standards What are the links between the different areas? What do we need? What do we have already? How do we make it vendor independent? 11