Enabling large-scale benchmarking and validation of quantum algorithms for realistic molecular systems, supporting future industrial applications of quantum computing OSAKA, Japan and IRVINE, Calif., ...

Simulating how atoms and molecules move over time is a central challenge in computational chemistry and materials science.

Researchers used 1,024 GPUs to run one of the world's largest quantum chemistry circuit simulations, surpassing the 40-qubit limit for state-vector methods. (Nanowerk News) A research team from the ...

From interactive simulations to immersive 3D reaction visualizations, virtual chemistry labs are reshaping how students learn and practice science. These tools bridge theory and practice without the ...

Virtual chemistry labs are transforming science education by making complex concepts accessible, safe, and engaging. Evidence shows they can enhance performance, build confidence, and encourage ...

Researchers at Chalmers University in Sweden have used a quantum computer to simulate a chemical reaction. Quantum chemistry is often modelled using supercomputers, which apply the laws of quantum ...

A new trick for modeling molecules with quantum accuracy takes a step toward revealing the equation at the center of a popular simulation approach, which is used in fundamental chemistry and materials ...

Molten carbon can form into either diamond or graphite. A new study shows how graphite can sometimes form even under conditions that should lead to diamond. (Getty Images) The graphite found in your ...

Large-scale classical simulation of IQPE quantum circuits demonstrated in this work. Larger qubit counts and more Hamiltonian terms result in deeper circuits and longer simulation times. Osaka, Japan ...

A joint research team between the Center for Quantum Information and Quantum Biology (QIQB) at The University of Osaka and Fixstars Corporation has demonstrated one of the world's largest classical ...