Science

Researchers have developed a compact and secure hash engine capable of implementing both SHA-3 and Shake, bolstered by a novel fault detection system.

A functional four-node quantum key distribution network has been successfully deployed using existing underground optical fibre in Cyprus, demonstrating the practical viability of integrating quantum cryptography into current telecommunications infrastructure.

Researchers have developed a new heuristic algorithm leveraging the principles of continuous-time quantum walks to efficiently address the notoriously difficult Minimum Vertex Cover problem.

A new dataset is challenging large language models to move beyond conceptual understanding and tackle the rigorous demands of cryptographic problem-solving.

Researchers have found a way to reliably generate quantum chaotic behavior using carefully designed circuits, moving beyond the need for purely random quantum operations.

A new theoretical framework sheds light on the performance of advanced error-correcting codes, including those used in quantum computing.

A new framework leverages the power of quantum computing and privacy-enhancing technologies to unlock the potential of federated learning in autonomous vehicles.

A new quantum algorithm leverages the power of topological data analysis to predict key data features, potentially accelerating insights from complex datasets.

A new algorithm optimizes decoder scheduling to improve the speed and scalability of fault-tolerant quantum computing.

This review explores the Hidden Subgroup Problem, a core challenge in quantum computing with profound implications for modern cryptography.