Researchers at TU Wien say a long-overlooked nanoscale gap between ultrathin 2D materials and insulating layers could prevent ...

Apple Silicon has another big journey to take, one that means Apple will probably be the first to introduce 1.4- and ...

D materials are widely seen as a promising path toward better computer chips. Researchers at TU Wien have now shown that some ...

The setup of the ingenious computer that works with tension and springs. Credit: St. Olaf College It has no wires, no silicon ...

The integration of nanotechnology in AI hardware is crucial for overcoming heat and memory bottlenecks, driving the next wave ...

Government-funded academic research on parallel computing, stream processing, real-time shading languages, and programmable ...

As HPC and AI processors push computing performance to unprecedented levels, transistor density has reached a point where ...

A powerful light source bigger than a London double-decker bus has set a record: it can create structures on a silicon wafer that are just 8 nanometres (nm) wide. Those are thought to be the smallest ...

Intel teams up everywhere; GPU rowhammer attack; faster verification; Samsung's new packaging site; Taiwan IC industry wants ...

Researchers at National Taiwan University have developed a unified model that explains how thickness, defects, interface quality, and roughness together control the behavior of ultrathin oxide ...