As researchers continue to explore alternative methods of computation, the potential of optical computing, particularly with ...

Researchers at Paderborn University in partnership with other companies have setup Europe's largest boson sampling-based ...

Increasingly complex applications such as artificial intelligence require ever more powerful and power-hungry computers to ...

On one hand, with the rise of quantum computing, artificial intelligence, blockchain, and cloud gaming, the demand for faster ...

Essentially, optical computing leverages the speed of light waves and their ability to interact in complex ways with ...

Researchers at the University of Tokyo have invented a new component for all-optical computing, that might bring this ...

As the digital world continues to produce enormous amounts of data—over 2 quintillion bytes every day—our current storage ...

Researchers from Tohoku University and the Massachusetts Institute of Technology (MIT) have unveiled a new AI tool for ...

At the heart of an optical computer is an old idea ... analogue computers still need to talk to the digital world. Converting non-digital signals into binary 1s and 0s burns energy.

However, existing digital holographic microscopes typically require complex optical systems and a personal computer for calculations, making them difficult to transport or use outdoors.

Augmented reality (AR) takes digital images and superimposes them onto real-world views. But AR is more than a new way to play video games; it could transform surgery and self-driving cars. To make ...