Prof. Kazuhiro Ogata and Dr. Canh Minh Do from JAIST lead the research on formal methods for quantum computing, with their work focusing on the formal specification and verification of quantum systems ...

Quantum computing, artificial intelligence and high-performance computing will play complementary roles in driving the next era of technology innovation. That is, if the industry can figure out a way ...

While the billion-dollar question is about when quantum computing will become commercially viable, one of the problems being tackled at the moment is how to make the ...

Quantum computing has long felt like a perpetual promise — a mysteriously powerful technology that’s always “about 10 years away.” If you tuned it out, you weren’t alone. But something has shifted ...

Among today’s emerging technologies, only agentic AI rivals quantum computing in the hype and promises surrounding its enterprise impact. While significant research on quantum computing continues, ...

The quantum computing future is rapidly reshaping how scientists think about computation, with machines moving toward fault-tolerant systems capable of solving problems beyond classical limits. From ...

Quantum computing, once hailed as a new advancement, has encountered significant challenges that have tempered early optimism. Sabine Hossenfelder explores the ...

The role of the new IBM Quantum Computation Center is to put real quantum computers in the hands of real users exploring the use quantum computing to solve real problems. As well as opening the new ...

Quantum computing is often described as the next big leap in computing, but the idea can feel abstract. At its core, it is a new way of processing information, one that uses the laws of quantum ...

IBM is introducing the industry’s first published quantum-centric supercomputing reference architecture, a new blueprint for integrating quantum computing into modern supercomputing environments.