A specially tweaked classical computer system has just solved a physics problem so complex it was thought to be impossible without a quantum computer. The problem is the simulation of what are called ...

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 ...

Quantum computers have the potential to transform science, accelerating breakthroughs in drug development, cosmology, ...

Nvidia claims to have kicked off the “quantum-GPU computing era,” unveiling a way for quantum computers to interconnect with classical systems. Revealed at the chip giant’s GTC event in Washington, ...

In the corporate bond market, customer inquiries are priced in a competitive bidding process using computer models and classical algorithms. This process is complicated and must incorporate real-time ...

This new CIC nanoGUNE project involves adapting the SIESTA program, one of the most widespread codes for exploring how materials behave at the ...

This supercomputer, located at Barcelona's BSC-CNS centre, can combine classical computing with both digital and analogue ...

Mikel Díez, Director of Quantum Computing at IBM Spain, explains how the new quantum systems will work alongside classical ones to offer new possibilities for problem-solving. The Basque city of San ...

While it's no replacement for either computer, the new device is a powerful alternative for addressing some very practical challenges. Reading time 3 minutes In a world of ever-improving computing ...