In this blog, explore how mesh refinement works, its role in overcoming stress singularities, and best practices for implementing it in your simulations.

Explore the future of AV testing, trends in L2+ autonomy, and how Ansys AVxcelerate sensors ensures real-world validation through physics-based sensor simulation.

This blog explores key EV components, including electronic control units, power components, PCBs, wiring, charging connectors, and busbars, before delving into strategies for managing heat.

This blog explores the theoretical background of optical waveguides and demonstrates how to simulate them using Ansys Lumerical MODE and Finite-Difference Time-Domain (FDTD) solvers.

Finite Element Analysis (FEA) is a powerful numerical method used to solve complex engineering problems involving intricate geometries

Even pedestrians are familiar with how distracting glare from the sun, headlights of oncoming vehicles, or reflections from wet surfaces can be.

As the automotive industry accelerates its transition to electric mobility, the demand for efficient and high-performance electric vehicle (EV) powertrains is growing exponentially.

Antenna design is critical to next-generation communication systems, ensuring optimal performance in extreme environments like space, battlefields, and dense urban areas.

Parachutes are crucial aerodynamic decelerators in airdrop and planetary reentry missions, where their inflation dynamics involve significant fluid-structure interaction (FSI) phenomena.

Diffraction is a fundamental optical phenomenon that occurs when light interacts with an obstacle or aperture, bending and spreading rather than traveling in a straight line.