The Exascale Computing Project has concluded. This site is retained for historical references.

Application: climate

Harnessing the Power of Exascale Software for Faster and More Accurate Warnings of Dangerous Weather Conditions

Faster and More Accurate Warnings of Dangerous Weather Conditions

E3SM-MMF: Forecasting Water Resources and Severe Weather with Greater Confidence

By exploiting the power and performance advantages of GPUs and exascale computing, researchers aim to better predict changes to Earth’s water cycles.

Earth and Space Science Applications Simulate Elusive Phenomena to Confirm Observations

Exascale Computing Project Earth and Space Science teams are producing sophisticated tools for large-scale scientific discoveries.

Exascale Computing is Expected to Support a Wide Array of Climate Science Studies

E3SM-MMF principal investigator Mark Taylor recently shared how exascale computing is likely to impact the development of global Earth system models.

Recent Success Snapshots: Application Highlight Roundup

Narrative snapshots in time chronicle highlights of some of the Application Development efforts within ECP.

Earth Modeling System is Expected to Offer Outstanding Climate Simulation Resolutions

Sandia National Laboratories reports on the work of the Energy Exascale Earth Systems Model (E3SM) and how the system E3SM has developed the last four

Cloud-Resolving Climate Modeling of Earth’s Water Cycle

Severe weather events are driven by the physics of convection. By simulating convective storms at a high resolution of one kilometer, scientists can improve predictions of regional water cycles.

Solutions for Microbiome Analysis

Analyzing the DNA of microorganism communities is one of the most computationally demanding tasks in bioinformatics, requiring exascale computing and advanced algorithms.

National Nuclear Security Administration logo Exascale Computing Project logo small U.S. Department of Energy Office of Science logo