Connectivity density and power delivery complexity have made power integrity one of the most critical constraints in modern system design.

For software-defined vehicles (SDVs), the traditional digital twin paradigm is no longer sufficient. Today’s vehicles ...

The semiconductor ecosystem is wrestling with fragmented standards, IP exposure, and the urgent need for runtime assurance.

General-purpose humanoid robots need all their senses to function equally well; vision and movement are the farthest along, ...

PUE is a ratio that describes how efficiently a data center uses its power, developed by The Green Grid in 2007. It ...

Developing AI-guided, patient-operated home ultrasound probes that can produce a reliable medical image. In a quiet farmhouse ...

Battery management systems are growing increasingly smarter with innovations in software and hardware that enable more ...

Chipmakers are starting to use AI to manage data that is mined from different “dashboards,” many of which are already ...

A framework that establishes concrete device-specific security requirements upfront and verifies them at the end.

This white paper explains how Synopsys Security IP embeds hardware‑rooted protection into AI SoCs and chiplets to secure ...

For SoC designs that include high-speed, voluminous I/O, it is essential that the prototype be exercised with large amounts ...

Chipmakers continue to make advancements with transistor technologies at the latest process nodes, but the interconnects within these structures are struggling to keep pace. The chip industry is ...