Lasers play a crucial role across many industries, from medicine to quantum computing. But producing them depends heavily on ...

As fast as modern electronics have become, they could be much faster if their operations were based on light, rather than ...

Despite advances in machine vision, processing visual data requires substantial computing resources and energy, limiting deployment in edge devices. Now, researchers from Japan have developed a ...

As artificial intelligence and smart devices continue to evolve, machine vision is taking an increasingly pivotal role as a ...

Engineers have developed a multifunctional, reconfigurable component for an optical computing system that could be a game changer in electronics.

Optical materials are substances used to manipulate light for applications in fields like telecommunications, medical devices ...

“We use the concept of clock period to mean the minimum time between successive computer operations.” The researchers use their device to demonstrate a number of standard tasks for a neural network, ...

At the heart of this new computer is an optical implementation of a recurrent neural network. The device operates entirely within the optical domain, utilizing laser pulses to process data.

Current computer chips operate at gigahertz speeds – billions ... Current methods require complex combinations of electrical, thermal, and optical controls, making devices bulky and slow to respond.

Paired with a Kyocera SSD, Kioxia's optical control board converts the SSD's signal from electrical to optical and then ...

(Courtesy: Lončar group/Harvard SEAS) The future of quantum communication and quantum computing technologies ... LC resonator capacitively coupled to two optical resonators using the electro-optic ...

The development of optical computing is “paving the way for breakthroughs ... The researchers taught their experimental device to recognize spoken vowels, a common benchmark task for neural ...