Experiments on Google's 67-qubit Sycamore processor showed operations entering a new "weak noise phase" in which calculations were complex enough to outperform supercomputers, based on benchmark ...

Scientists in Australia have developed a quantum control chip that removes a key obstacle to getting qubits into practical, ...

Google's new 105-qubit "Willow" quantum processor has surpassed a key milestone first proposed in 1995 — with errors now reducing exponentially as you scale up quantum computers. When you ...

Google’s quantum computing lab achieved a major milestone with its new processor Willow, which reduces errors and has more powerful performance. Google’s quantum computing initiative is ...

As a result, other quantum-computing companies we've talked to have already acknowledged that they will have to find ways to integrate qubits on more than one chip.

Amazon's new "Ocelot" processor is a first-generation quantum chip developed by the AWS Center for Quantum Computing in Pasadena, California. (AWS Photo) ...

At the heart of the Novera QPU is a 9-qubit chip arranged in a 3×3 grid. ... But the Novera QPU quantum computer processor is more than a collection of hardware.

UCSB's new general-purpose quantum computer has separate CPU, memory, and programming electronics. To date, quantum computers have been implemented so that programming their operation was, ...

This same design will also be useful for IBM's future endeavors in quantum computing, like the 433-qubit Osprey chip, planned for 2022, and the 1121-qubit Condor chip, expected to be available by ...

Intel Tunnel Falls quantum computer chip houses 12 qubits, a relatively small number of the quantum computer processing elements, but it's a step toward much larger scale processors. Intel ...

Stephen Shankland worked at CNET from 1998 to 2024 and wrote about processors, digital photography, AI, quantum computing, computer science, materials science, supercomputers, drones, browsers, 3D ...

Google Quantum AI researchers have discovered a "stable computationally complex phase" that can be achieved with existing quantum processing units (QPUs), also known as quantum processors.