Optimization of multiphysics analyses results in faster time to market and lower design risk for electronic systems AI-driven optimization quickly and efficiently explores design space and produces ...

At Chase, we have nearly 1,000 designers and 3,000 engineers working across our digital portfolio, and our design system plays a key role in connecting experiences across this large organization to ...

The move away from monolithic SoCs to heterogeneous chips and chiplets in a package is accelerating, setting in motion a broad shift in methodologies, collaborations, and design goals that are felt by ...

The integration of generative AI (GenAI) into tools such as cloud-based SaaS (software-as-a-service) products are driving dynamic transformation in the industrial automation space. The emergence of ...

Today’s semiconductor designs support a broad range of applications, from mobile and edge devices to AI accelerators and data center systems. To keep pace, design teams are shifting from monolithic ...

Power electronics component and system complexity is growing rapidly driven by electrification of automotive, aerospace and industrial systems Virtual prototyping enables design teams to start ...

How to measure harmonics in a power system. Methodologies for reducing power system harmonics. A look at "triplen" harmonics. The IEEE standard 3002.8-2018, “Recommended Practice for Conducting ...

The key attributes of semiconductors in designing for sustainability. The essential design factors for applications within a sustainable ecosystem. Global sustainability is centered around ...