Caltech professor of chemistry Sandeep Sharma and colleagues from IBM and the RIKEN Center for Computational Science in Japan ...

Despite the impressive and undeniable strides quantum computing has made in recent years, it’s important to remain cautious ...

A research team has achieved the holy grail of quantum computing: an exponential speedup that’s unconditional. By using clever error correction and IBM’s powerful 127-qubit processors, they tackled a ...

Scientists say they have made a breakthrough after developing a quantum computing technique to run machine learning ...

Quantum researchers finally captured the field’s “holy grail,” showing real machines can beat classical computing ...

Caltech professor of chemistry Sandeep Sharma and colleagues from IBM and the RIKEN Center for Computational Science in Japan are giving us a glimpse ...

Quantum computing is moving from theory to reality, promising a future of breakthroughs in science, security, and computation ...

Barren plateaus are stretches of the quantum algorithm optimization landscape so unnervingly flat that gradient‑based methods don't work.

The set-up features a quantum photonic circuit built at the Politecnico di Milano (Italy), which runs a machine learning algorithm first proposed by researchers working at Quantinuum (United Kingdom).

Discover how Bitcoin.ℏ uses SHA‑384 cryptography to defend against quantum threats with a forward-thinking, post-quantum ...

Good Oscillations Ultimately, the new approach works because of how it encodes information. Classical computers use bits, which can take one of two values. Qubits, the quantum equivalent, can take on ...