Altair® EEvision™

Altair® EEvision™ is an electronic system visualization platform for managing system complexity. Accelerate and simplify product design, manufacturing, and servicing by easily searching a digital twin model to quickly render up-to-date schematics for system connectivity, wiring harnesses, and component attributes. Access information in the cloud or on-premises so teams can view and understand real-time critical information in increasingly complex electrical systems or automatically generate documentation when required. 

Automotive servicing is a crucial part of the overall ownership experience, and rapid, effective service is a critical business metric for the entire automotive industry. With accelerating electronic system functionality, servicing cars today requires understanding a complex, interconnected computer system. This article describes the changing nature of modern vehicle maintenance and how digital twin technology applies to automotive or other industries whose products are increasingly digitalized.

NASA-JPL engineers adopt Altair® EEvision™ electronic system visualization software to help develop their Europa, Psyche, and Mars Sample Return interplanetary space missions. JPL develops complex electrical systems and wire harness designs for its space missions and programs. Capturing requirements and implementing designs for these complex electrical systems is a highly iterative and cyclical process. JPL selected EEvision to help implement a model-based, requirements-driven process to improve the development processes for these missions and future projects.

Electronic system complexity in the automotive industry is expanding due to increasing advanced features and electrification. The need for automotive companies to efficiently manage this complexity across their value chain, from development to manufacturing and service centers, is essential for design accuracy and cost savings. EEvision offers a Model-Based Design (MDB) system for taming this complexity by visualizing a Digital Twin model in real time. Users can search entire electronic systems to isolate and automatically render schematics for any scenario-specific situation, visualizing only the necessary components, connectivity, and regions of influence.