The neutral atom array architecture for quantum computing has been rapidly advancing over the last several years, and a ...

Physicists have made an array of 6,100 neutral-atom qubits held in place by lasers, marking a dramatic increase in potential quantum computing size. Nevertheless, the qubits have not yet been ...

An array of 6100 ultracold caesium atoms controlled by lasers is the largest collection of qubits ever assembled, and ...

RESEARCHERS at the California Institute of Technology (Caltech) have announced a major breakthrough, successfully assembling ...

A micrograph showing the operation of a ‘conveyor belt’ of atom arrays. At each step, a fresh array is created at the bottom, ...

Physicists at Caltech have now taken a major step in that direction. They created the largest qubit array ever assembled, 6,100 neutral-atom qubits, held in place by lasers. Until now, similar arrays ...

San Mateo, Calif. – For a number of good reasons, reconfigurable computing array architectures have been drawing more attention of late. In these designs, a large array of processors-usually from ...

“Conventional resistive crossbar array for in-memory computing suffers from high static current/power, serious IR drop, and sneak paths. In contrast, the “capacitive” crossbar array that harnesses ...

Apple offers a couple of software RAID solutions for people interested in either creating a larger disk out of two, or mirroring two disks together for data redundancy in the event of a drive failure.

Quantum computers will need large numbers of qubits to tackle challenging problems in physics, chemistry, and beyond. Unlike ...