The human brain is the ultimate supercomputer. It uses a highly branched and interconnected network of neurons and synapses ...

AI data centers are power-hungry. Not only do artificial intelligence computations consume enormous amounts of electricity, ...

As artificial intelligence (AI) proliferates rapidly, AI models and datasets are also growing rapidly in size. This growth far outpaces performance improvement in hardware systems, and is increasing ...

Artificial Analysis, the independent AI benchmark organisation, ranks HyperNova 60B as the lowest-parameter model in the ...

China launches a photonic computing lab to develop light-powered chips that could boost speed and cut energy use.

The growth of energy efficiency in traditional computer chips is slowing due to physical limitations, coinciding with a rapid increase in energy demands from the tech sector, especially artificial ...

Quantum computing, once only a theoretical possibility, promises to deliver faster, more energy-efficient computers—but only ...

The growth and impact of artificial intelligence are limited by the power and energy that it takes to train machine learning models. So how are researchers working to improve computing efficiency to ...

Researchers have managed to generate propagating spin waves at the nanoscale and discovered a novel pathway to modulate and amplify them. Their discovery could pave the way for the development of ...

Recent significant developments include bigger qubit systems and improvements in error correction. By improving algorithms ...

Approximate computing encompasses a suite of design methodologies that deliberately introduce controlled inaccuracy into digital circuits and algorithms to achieve substantial reductions in power ...