Chinese researchers have developed the first highly parallel optical computing integrated chip, named “Meteor-1”, setting a milestone for using light to perform an enormous number of operations at the ...

A new microchip-sized device could dramatically accelerate the future of quantum computing. It controls laser frequencies ...

Chinese scientists have produced what they claim is the world’s first ultra-high-parallel optical computing integrated chip, delivering a theoretical 2,560 tera-operations per second (TOPS) at a 50 ...

Researchers at Harvard have created a groundbreaking metasurface that can replace bulky and complex optical components used in quantum computing with a single, ultra-thin, nanostructured layer. This ...

Figure 1. Ultra-high parallel optical computing integrated chip - "Liuxing-I". High-detail view of an ultra-high parallelism optical computing integrated chip – “Liuxing-I”, showcasing the packaged ...

Forward-looking: By demonstrating a chip that can produce multiple frequencies without adjustment, a Maryland research team has brought photonic integration closer to parity with the semiconductor ...

The rapid development of photonic computing chips has been driven by the increasing demand for high data-throughput, low-power computation across various application fields. Researchers have aimed to ...

Researchers used the Q‑Chip to send quantum data over standard fiber using Internet Protocol (IP), showing that future quantum networks could run on today’s internet infrastructure. When you purchase ...

The big picture: Nvidia's approach to co-packaged optics is a nuanced reflection of the technology's current limitations and future potential. By focusing on specialized applications with less ...

A team of researchers at the USC’s (University of Southern California) Ming Hsieh Department of Electrical and Computer Engineering has designed what it calls “the first optical device that follows ...