Quantum computers—devices that process information using quantum mechanical effects—have long been expected to outperform classical systems on certain tasks. Over the past few decades, researchers ...

The new architecture shows how quantum processors could work alongside classical HPC, creating hybrid environments to tackle ...

Although the potential applications of quantum computing are widespread, a new feasibility study suggests quantum computers ...

One of the biggest promises of quantum computing is the ability to simulate molecules ...

Those that solve artificially simplified problems where quantum advantage is meaningless. Those that provide no genuine quantum advantage when all costs are properly accounted for. This critique is ...

The JVG algorithm factors RSA and ECC keys using fewer quantum resources than Shor’s algorithm, accelerating the time needed ...

Quantum computing advantages look weaker; classical methods beat a nitrogen-fixing molecule simulation, raising doubts about ...

Quantum computing presents opportunities in strategic planning and discovery through complex simulations, but also risks in data security via Shor’s algorithm. Businesses must prepare now to leverage ...

Two popular quantum computing algorithms for problems in chemistry may have very limited use even as quantum hardware ...

IBM (IBM) said it has released the industry's first published quantum‑centric supercomputing reference architecture that outlines a practical, scalable path for combining quantum and classical ...

Oracle-based quantum algorithms cannot use deep loops because quantum states exist only as mathematical amplitudes in Hilbert space with no physical substrate. Criticall ...

IBM has unveiled the first published reference architecture for quantum-centric supercomputing, outlining how quantum computing can be integrated into modern supercomputing environments. Quantum ...