Encryption systems rely on “random” numbers, but conventional computers can’t generate them perfectly. New research shows that quantum physics can.

Previous data center networks are mostly built hierarchically in Clos or Fat-Tree architectures with Leaf/Spine or, for ...

We develop and engineer algorithms for fully dynamic graph problems-- efficiently maintaining solutions as edges and vertices are inserted and deleted. Developed at the Algorithm Engineering Group, ...

Abstract: An improved method for decomposition of random and deterministic jitter measurements using tail fitting of the probability density function of total jitter is proposed. The currently ...

Experts in quantum computing and cryptography insist ERNIE 5's light-powered wizardry delivers unassailable true randomness, banishing fears of manipulation in this beloved Bletchley Park legacy.

A tool for computing optimal paper-reviewer matches for peer review, subject to constraints and affinity scores. Comes with a simple web server designed for integration with the OpenReview server ...

Abstract: Algorithms and dynamics over networks often involve randomization and randomization can induce oscillating dynamics that fail to converge in a deterministic sense. Under assumptions of ...

Crunching hard grains together leads to their rigidification, irrespective of how the system is prepared. While certain features of the resulting jammed materials—e.g. their contact force distribution ...

The rise of artificial intelligence (AI) deep learning algorithms is helping to accelerate brain-computer interfaces (BCIs). Published in this month’s Nature Neuroscience is new research that shows ...