Two analyses suggest that quantum computers could crack ubiquitous security keys and cryptocurrencies before the decade is ...

A University of Sydney quantum physicist has developed a new approach to quantum error correction that could significantly ...

Traditional encryption methods have long been vulnerable to quantum computers, but two new analyses suggest a capable enough ...

A new study published in Big Earth Data proposes an AI cube framework that integrates GeoAI models into geospatial data cube ...

Algorithms analyze vibration patterns, temperature anomalies and pressure fluctuation locally, triggering alerts before ...

Building a utility-scale quantum computer that can crack one of the most vital cryptosystems—elliptic curves—doesn’t require ...

Two key trends are shaping the teaching of programming to the next generation of computing engineers at present. The first is ...

A growing body of research now treats the challenge of building large-scale quantum computers less as a single-chip ...

Abstract: Existing implementations of autonomous vehicle groups focus on structured environments, overlooking challenges such as centralized computation bottlenecks, environmental interference, and ...

In the event of an upstream grid fault, the Active Distribution Network (ADN) can switch to autonomous operation, coordinating controllable Distributed Generators (DGs) and Energy Storage Systems (ESS ...

Abstract: Shor's algorithm is one of the most prominent quantum algorithms, yet finding efficient implementations remains an active research challenge. While many approaches focus on low-level modular ...