Slight temperature changes, imperceptible manufacturing imperfections, and heat generated by their own components can completely ruin an entire quantum quantum system-on-chip. Silicon photonics could ...

For decades, the design of leading-edge chips has been a high-wire act—balancing tight deadlines, sophisticated workflows, and the relentless need to consult scattered, often outdated, sources of ...

Monolithic integration has been the dominant approach to chip design since the rise of VLSI-based ASICs decades ago. In a monolithic design, all of the building blocks of integrated circuits such as ...

The future of digital computing and communications will involve both electronics—manipulating data with electricity—and photonics, or doing the same with light. Together the two could allow ...

Cambridge, MA – The advanced semiconductor material gallium nitride will likely be key for the next generation of high-speed communication systems and the power electronics needed for state-of-the-art ...

As generative artificial-intelligence models become more sophisticated and eat up more energy to produce images and videos, the electronic chips that power them are reaching their limits of speed and ...

Manufacturing Facilities Will Power Resilient and Robust U.S.-Allied Supply Chain for Quantum Computing Elmsford, N.Y., Dec. 1, 2025 /PRNewswire/ -- SEEQC, the digital quantum computing company ...

Ten semiconductor projects are currently underway across six states in India, with a total investment of $18.2 billion The country wants to reduce dependence on imports, secure chips for strategic ...

A programmable photonic circuit has been developed that can execute various quantum algorithms and is potentially highly scalable. This device could pave the way for large-scale quantum computers ...

In a milestone for scalable quantum technologies, scientists from Boston University, UC Berkeley, and Northwestern University have reported the world’s first electronic–photonic–quantum system on a ...