AI is transforming drug discovery, but accurately predicting patient responses remains challenging. Considering the ongoing need to connect drugs with the right patients and rising drug costs, ...

Multiphysics simulation allows engineers to evaluate complex interactions in a single environment, reducing the need for physical prototypes. In healthcare, simulation helped design electromagnetic ...

Electronic designers need greater integration densities and faster data transfer rates to meet the increased performance requirements of technologies like 5G/6G, autonomous driving, and artificial ...

Imagine you're building an unmanned aerial vehicle (UAV), a cutting-edge electric vehicle or a self-driving car. Not long ago, this would’ve meant years of physical ...

In the age of Industry 4.0, manufacturers are expected to develop increasingly sophisticated, digitally integrated products while controlling development costs and accelerating time to market.

Complicated problems take longer to solve. In engineering, it’s a given that simulation drastically accelerates the development cycle, enabling engineers to digitally test ideas and optimize products ...

The high power consumption of electronic systems, driven by applications in Artificial Intelligence (AI) and High-Performance Computing (HPC), is generating a significant demand to address overheating ...

The product development process can be improved with single-physics simulation, multiphysics simulation and simulation apps. This article looks at three real-world examples that show how integrating ...