Scientists from the Indian Institute of Technology Bombay have found a way to use light to control and read tiny quantum ...

This month's LCGC Blog from Jonnie Shackman from the America Chemical Society (ACS) reflects on how early experiences with computer programming shaped the author’s understanding of fundamental logic, ...

Understanding quantum computing, from qubits science and tech breakthroughs to future quantum applications, and discovering how close we are to real-world use cases ...

Digital twins, combined with edge AI, have proven capable of reducing the operational expenditure of smart buildings.

Quilter's AI designed a working 843-component Linux computer in 38 hours—a task that typically takes engineers 11 weeks. Here ...

P4 lets networks finally break free of rigid hardware, adding custom protocols, real-time visibility and smarter security ...

Researchers find that magnetic skyrmions can behave like chiral fluids, which may be harnessed for fluidic logic in nanofabricated devices. (Nanowerk News) In magnetic materials with antisymmetric ...

The overwhelming contributor to energy consumption in AI processors is not arithmetic; it’s the movement of data.

In magnetic materials with antisymmetric exchange interactions, novel particle-like spin textures called magnetic skyrmions can appear and be manipulated by electrons. First observed in 2009, they ...

This guide looks at the real-world complexities of building software for aerospace. We'll cover what separates aerospace ...

Schematic illustration showing how nanoscale magnetic skyrmions flow through an H-shaped junction to perform logic operations. The device demonstrates fluid-like collective behavior of skyrmions in ...