The semiconductor industry has spent decades mastering the art of integrated circuit physical verification. But as system-on-chip (SoC) designs push the boundaries of complexity—with more transistors, ...

Cockpit SoC research: The localization rate exceeds 10%, and AI-oriented cockpit SoC will become the mainstream in the next 2-3 years In the Chinese automotive intelligent cockpit SoC market, although ...

In today’s complex system-on-chip (SoC) design flows, intellectual property (IP) blocks are everywhere—licensed from third parties, leveraged from internal libraries, or hand-crafted by expert teams.

Open-source tools and multi-project wafer (MPW) shuttles democratize chip design for low cost. Small circuits, both analog and digital, are accommodated by embedding them as “tiles” or “clusters” into ...

The shift from manual design to AI-driven, physically aware automation of network-on-chip (NoC) design can be compared to the evolution of navigation technology. Early GPS systems revolutionized road ...

Semiconductor chiplets represent an advancement in microchip design. They divide traditional monolithic systems into smaller, modular components. Unlike traditional monolithic SoCs, which integrate ...