Scaling to such numbers is a major challenge, as quantum computers suffer from inherent errors that increase rapidly with the number of qubits. For practical quantum computing, highly efficient ...

In this paper, we investigate an architectural-level mitigation technique based on the coordinated action of multiple checksum codes, to detect and correct errors at run-time.

Modern network communications increasingly rely on sophisticated error correction techniques to maintain streaming performance and ensure reliable data delivery even ...

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 ...

This method handles both bit-flip (X) and phase-flip (Z) errors, the two fundamental errors in quantum computing, simultaneously. Any error in a quantum state can be corrected by addressing these ...

RIKEN scientists tap into AI to find a smarter method for fixing quantum errors, cutting resource demands for stable quantum machines. Theoretical physicists at RIKEN have made a key advance in ...