This article is part of a package on the future of quantum computing. Read about the most promising applications of these ...

Quantum computing could lead to revolutions in cryptography, materials design and telecommunications. But fulfilling those ...

This voice experience is generated by AI. Learn more. This voice experience is generated by AI. Learn more. Parts of the IBM Quantum System Two are displayed at IBM Thomas J. Watson Research Center on ...

Quantum systems hold the promise of tackling some complex problems faster and more efficiently than classical computers. Despite their potential, so far only a limited number of studies have ...

Performing complex algorithms on quantum computers will eventually require access to tens of thousands of hardware qubits. For most of the technologies being developed, this creates a problem: It’s ...

The race for ⁠chips that ​could speed drug ​discovery or crack encryption is heating ​up. Firms ​like Rigetti have raised $7.2 ‌bln, ⁠often via blank-check mergers. What’s missing are final ​advances ...

Quantum physics has a reputation for needing exotic hardware, from liquid-helium-cooled qubits to sprawling AI clusters, just to crunch through basic simulations. Now a new “physics shortcut” is ...

From where we're sitting today, it's increasingly likely that quantum computing will be one of the most disruptive technologies on the medium-term horizon. Here’s why: Harnessing the properties of ...