As spotted earlier today by Gizmodo, the international team achieved a data transfer rate of 301 terabits, or 301,000,000 megabits per second by accessing new wavelength bands normally unreachable in ...

A nanophotonic diffractive network performs morphological image processing, including dilation and erosion, purely through light propagation.

Light waves, as they propagate through a medium, experience a temporal delay. This delay can unveil crucial information about the underlying structural and compositional characteristics. Quantitative ...

New processor uses light instead of electrons to calculate and transfer data, enabling energy savings and dramatically faster compute Lightmatter, a leader in silicon photonics processors, announced ...

(Nanowerk News) As more connected devices demand an increasing amount of bandwidth for tasks like teleworking and cloud computing, it will become extremely challenging to manage the finite amount of ...

Using an optical processor to operate in the E- and S-band ranges, UK researchers hit a transfer rate of 301 terabits per second. By Andrew Paul Published Mar 29 ...

a) Conceptual diagram of the on-chip optical processor used for optical switching and channel decoder in an MDM optical communications system. (b) Integrated reconfigurable optical processor schematic ...

A new technical paper titled “Massively parallel and universal approximation of nonlinear functions using diffractive processors” was published by researchers at UCLA. “Nonlinear computation is ...

The Xenon processor integrates a standard-compliant ITU G.983 MAC/framer and a network processor for broadband passive optical network (BPON) applications. Based on a high-performance dual-ARM9 core ...

Researchers at the University of California, Los Angeles (UCLA) have developed an optical computing framework that performs large-scale nonlinear computations using linear materials. Subscribe to our ...