A new computational method now makes it possible to calculate the forces between large molecules with unprecedented accuracy.

The Willow processor runs the first verifiable algorithm with real-world applications, marking shift from theory to practical ...

Networks are systems comprised of two or more connected devices, biological organisms or other components, which typically ...

Discover how Google's quantum echoes algorithm is solving real-world problems in drug discovery, material science, and ...

Crystal structure prediction (CSP) of organic molecules is a critical task, especially in pharmaceuticals and materials ...

A new quantum computing protocol may be able to augment a standard technique for understanding molecules in chemistry, ...

The past decade has witnessed remarkable advances in computational power, algorithms, and theoretical methods, enabling accurate modeling and prediction of ...

Quantum computing is set to redefine data security, AI, and cloud infrastructure. This in-depth research explores how post-quantum cryptography, quantum AI acceleration, and hybrid quantum-cloud ...

A research team from Google Quantum AI has developed a new quantum algorithm that is intended to enable a verifiable quantum ...

The field of computational materials science has been profoundly transformed by integrating deep learning and other machine learning methodologies. These sophisticated data-driven approaches have ...