Simulation Topics

Learn about finite element analysis (FEA), how finite element modeling works, and how it’s used in engineering applications.

Learn what computational fluid dynamics (CFD) is and how it’s used across different industries. 

Learn how lidar is used in applications like autonomous vehicles and how it’s different from other AV technologies.

Read to learn about what a Heads-Up Display (HUD) is, how it works, the applications, benefits and more.

Explore ADAS (Advanced Driver Assistance System), its role in enhancing safety, and the technology that defines the future of safe driving.

Photonics is a multidisciplinary domain that involves the generation, control, manipulation, and detection of light.

Read about what Augmented Reality (AR) is and how it works, and learn about AR examples, types of AR and more.

Explore PCB design: what they are, how they function, and the techniques used to build these essential components in modern electronics.

Read about the different types of stray light, issues it can cause, and how it is measured.

Learn about ASIC design and delve into advanced integrated circuits and unlock their transformative potential.

Learn about the purposes and functions of automotive exterior lighting, the unique challenges in designing them, and the tools that can help.

Learn about Analog Integrated Circuits (ICs) and explore their multifaceted functionality and pivotal role in advanced electronics.

Learn more about how a CMOS image sensor has enabled many imaging applications, from tiny digital smartphone cameras to Earth observation sensors on satellites.

A mixed-signal integrated circuit combines analog and digital components onto a single semiconductor chip. 

Advanced semiconductor packaging is a collection of manufacturing processes combining multiple semiconductor chips into a single electronics package. 

Electrical engineers can apply S-parameters to a wide range of engineering designs. Learn about S-parameters, their purpose, measurement process, and different types.

Understanding how the interaction of fluids and structures impacts your project requires a solution that accurately predicts and integrates both behaviors.

See how organizations are using model-based solutions that enable them to manage complexity, collaborate and communicate, reduce costs, and get products to market more quickly.