Lumai, the optical compute company addressing scalable AI, today announced its Lumai Iris inference server – the world’s first optical computing system to successfully run billion-parameter large ...

Shares of Xizhi Technology, also known as Lightelligence, surged on their first day of trading in Hong Kong, with the Chinese ...

Shares of Alibaba-backed Lightelligence surged in its Hong Kong debut on strong investor demand, putting the Chinese optical-computing provider's market value at $9.5 billion. Shares of the company, ...

Lumai has successfully run billion-parameter large language models (LLMs) in real time using its optical computing system, called Lumai Iris. The company claims it is the first time an optical compute ...

The global optical computing market is poised for exponential growth driven by the convergence of AI bandwidth demands, photonic quantum computing, and the maturation of silicon photonics. Key ...

Shares of Lightelligence, the Shanghai-based optical computing company formerly known as Shanghai Xizhi Technology, delivered ...

LightSolver's optical supercomputer uses laser interference patterns to solve complex physics problems. Credit: LightSolver Boeing is funding Israeli startup LightSolver to apply its laser-based ...

Want to call someone a quick-thinker? The easiest cliché for doing so is calling her a computer – in fact, “computers” was the literal job title of the “Hidden Figures” mathematicians who drove the ...

Yichen Shen, founder and CEO of AI photonics chipmaker Lightelligence, speaks with CNBC's Elaine Yu following the company's ...

As the realm of computing continues to evolve, the integration of optical technologies has emerged as a groundbreaking frontier, presenting new paradigms for processing and information transfer.

Lumai, a spin-out from the UK's University of Oxford working on a radical optical computing approach to artificial intelligence (AI) that goes beyond integrated photonics, says it has secured venture ...

Superconducting qubits—bits of quantum information—have been widely considered a promising technology for moving quantum ...