Part one explained the physics of quantum computing. This piece explains the target — how bitcoin's encryption works, why a ...

Quantum computers stand to revolutionize research by helping investigators solve certain problems exponentially faster than with conventional computers. Current quantum computers encounter a challenge ...

Quantum hardware and software are advancing rapidly – and our online encryption systems need to change to stay ahead.

Quantum-HPC integration may still be in its earliest chapters, but the race to build the software infrastructure it will need ...

For quantum computing to reach the point where it is fault-tolerant, scalable, and commercially viable, it’s going to be with ...

A team developing light-sensitive cancer drugs has won a US$2-million Quantum for Bio (Q4Bio) prize for demonstrating a ...

A major obstacle in the development of powerful quantum computers is the growing number of cables required to control a ...

The HARQ program seeks to transform how quantum computing systems are designed and scaled by moving beyond today’s one-qubit-to-rule-them-all approach.

A 12-qubit photonic quantum computer called Lucy has been integrated with the Joliot-Curie supercomputer ...

Once a baffling theory, quantum mechanics has evolved into a driving force behind modern technology and frontier research.

The Heterogeneous Architectures for Quantum program moves forward with performer teams developing hybrid quantum ...

Foundational to the work on quantum error correction (QEC) are logical qubits, which are created by entangling multiple ...