The next supercomputer frontier presents a journey into the unknown unlike any other, Tzanio Kolev says. Exascale computers, the first of which are expected to begin operation in 2021, will perform a ...

High-performance computing (HPC) is only as valuable as the science it produces. To that end, a National Energy Research Scientific Computing Center (NERSC) project at Lawrence Berkeley National ...

A Montana State fellow charts a path from physics and modeling to a form of pure math called category theory.

Environmental scientist Marianne Cowherd grew up in Michigan and loved snow. “My favorite thing was having school cancelled and going sledding,” she says. “But I never thought of snow as a water ...

Pairing large-scale experiments with high-performance computing can reduce data processing time from several hours to minutes.

Argonne’s Joe Insley combines art and computer science to build intricate images and animations from supercomputer simulations.

A Brookhaven National Laboratory computer scientist is building software to help researchers interact with their data in new ways.

ORNL’s Titan supercomputer is helping Brookhaven physicists understand the matter that formed microseconds after the Big Bang. At the dawn of the universe – just after the Big Bang – all matter was in ...

A CSGF fellow doggedly applies computational models to COVID-19 and cancer.

Lawrence Livermore National Laboratory models the blood-brain barrier to find ways for drugs to reach their target.

Exascale computing, combined with redesigned computational chemistry software, could help researchers develop new renewable energy materials and greener chemical processes.

A Livermore team takes a stab, atom-by-atom, at an 80-year-old controversy over a metal-shaping property called crystal plasticity.