Device scaling has slowed down a lot, thanks to a kind of corollary, a principle that goes hand in hand with Moore's law: Dennard scaling. In semiconductor electronics, Dennard scaling ...

There is much excitement about the semiconductor industry moving to 28nm and 20nm ... The immediate pursuit of Moore’s Law makes sense for companies that require the performance and density that come ...

Active interposers with transistors will gradually replace passive interposers, driving the transition to vertical stacking.

After five years of research and development, the Fudan University team created WUJI using the 32-bit RISC-V architecture and ...

The US Court of Appeals for the Federal Circuit dismissed an appeal challenging a US International Trade Commission decision that upheld ...

Why Malaysia isn’t out of the semiconductor race 1. The future is “more than Moore” While Moore’s Law has driven semiconductor innovation for decades, we are entering an era where performance is ...

The race beyond silicon is already underway. As these emerging semiconductor materials become more viable, they will enable ...

Researchers demonstrate scalable integration of graphene and GaN devices using van der Waals forces, enabling high-performance CMOS-compatible electronics.

lower power consumption and the potential for even smaller transistor sizes – key advantages that could help overcome the limits of Moore’s Law, which predicts a doubling of semiconductor ...

Device scaling has slowed down a lot, thanks to a kind of corollary, a principle that goes hand in hand with Moore's law: Dennard scaling. In semiconductor electronics, Dennard scaling ...