Network-on-Chip (NoC) architectures have emerged as a pivotal design paradigm in modern multi-core systems, offering scalable and efficient interconnections among numerous processing elements. However ...

In addition, the announcement demonstrates a full error-correction cycle, not just parts of the cycle, as was the case in previous experiments, says Sam Lucero, chief quantum analyst at Omdia.

Quantum Circuits Inc., a spinout from Yale University building a novel quantum computing platform, today announced it has raised more than $60 million in an early-stage funding round that will allow ...

Microsoft and Quantinuum today announced a major breakthrough in quantum error correction. Using Quantinuum’s ion-trap hardware and Microsoft’s new qubit ...

Qedma Ltd., a startup working to make quantum computers more reliable, today announced that it has raised $26 million in early-stage funding. Glilot Capital Partners led the Series A round. It was ...

Today's quantum computing hardware is severely limited in what it can do by errors that are difficult to avoid. There can be problems with everything from setting the initial state of a qubit to ...

A new class of highly efficient and scalable quantum low-density parity-check error correction codes, capable of performance ...

“Although it seems counterintuitive, the progress made in quantum hardware development over the next year may lead to more uncertainties within the quantum industry rather than less,” he said.

Japanese scientists develop scalable quantum LDPC error correction codes approaching the theoretical hashing bound.

The current generation of quantum hardware has been termed "NISQ": noisy, intermediate-scale quantum processors. "Intermediate-scale" refers to a qubit count that is typically in the dozens, while ...