We always hear that future computers will use optical technology. But what will that look like for a general-purpose computer? German researchers explain it in a recent scientific paper.

Leveraging the optical computing architecture of S-DNN, the all-optical DOA sensing latency is reduced by over 2–4 orders of magnitude compared to the most advanced radio frequency direction ...

The study authors have created a design architecture, called diffraction casting. They claim this method can bring us closer to unlocking the full potential of optical computing. To understand the ...

For this demonstration we implemented a URISC architecture capable of running any classical piece of software all-optically and present a comprehensive architectural framework for all-optical ...

"This discovery is a key enabling technology toward a faster, more efficient, and more scalable optical computing architecture that can be directly programmed with CMOS (complementary metal-oxide ...

The optical computing market is young but promising ... clock speed on microchips to bottlenecks in the prevalent computer architecture (with its requirements for constant data transport between ...

Optical computing is a proposed solution to increase speed and power efficiency but has yet to be realized due to constraints and drawbacks. A new design architecture, called diffraction casting ...

Diffractive deep neural networks (D 2 NN), also known as diffractive networks, constitute an emerging optical computing architecture. These task-specific networks are constructed from spatially ...

For optical computing to happen, though, the well-established architecture of digital electronic processing would have to be replaced by equivalent optical components. Or maybe not. For some ...

This architecture allows the all-optical computer to perform tasks like signal classification, time-series prediction, and image generation with unparalleled speed and efficiency. Unlike ...