NOvA Sees Strong Evidence for Antineutrino Oscillation

Using NERSC's Cori and Fermilab's HEPCloud program, the NOvA neutrino experiment performed the largest-scale analysis ever to support the recent evidence of antineutrino oscillation, a phenomenon that may hold clues to how our universe evolved. » Read More

Simulating Impact of a Major Quake

A team of Berkeley Lab and LLNL researchers is leveraging powerful supercomputers at NERSC to portray the impact of high-frequency ground motion on thousands of representative different-sized buildings spread out across the California region. » Read More

Science Search

Science Search, a web-based search engine for scientific data is currently being developed by a team of researchers in Berkeley Lab's CRD and NERSC. The team is also developing innovative machine learning tools to automatically generate missing metadata tags for each file. » Read More

Self-Healing Cement Could Be a Boon to Oil & Gas Industry

Researchers at Pacific Northwest National Laboratory have developed a unique cement that can repair itself in as little as a few hours; simulations run at NERSC helped them understand how it works. » Read More

Deep Learning at 15 PFlops Enables Training for Extreme Weather Identification at Scale

Petaflop per second deep learning training performance on the Cori supercomputer at NERSC has given climate scientists the ability to use machine learning to identify extreme weather events in huge climate simulation datasets. » Read More

National Energy Research Scientific Computing Center

Computing at NERSC

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Now Computing

A small sample of massively parallel scientific computing jobs running right now at NERSC.

Project	Machine	Nodes
High fidelity gyrokinetic study of divertor heat-flux width and pedestal structure PI: Choong-Seock Chang, Princeton Plasma Physics Laboratory (PPPL)	Cori	2,048
multi-scale simulations of nanoscale energy conversion PI: Jeffrey C. Grossman, Massachusetts Institute of Technology	Edison	640
multi-scale simulations of nanoscale energy conversion PI: Jeffrey C. Grossman, Massachusetts Institute of Technology	Edison	640
High fidelity gyrokinetic study of divertor heat-flux width and pedestal structure PI: Choong-Seock Chang, Princeton Plasma Physics Laboratory (PPPL)	Cori	512
Investigating climate-biogeochemistry feedbacks with the Department of Energy's next- generation high-resolution Earth system model PI: Peter Thornton, Oak Ridge National Laboratory	Edison	285
Joint Genome Institute's Plant Program PI: Kjiersten Fagnan, Lawrence Berkeley National Lab - NERSC	Cori	170
energy exascale earth system modeling (e3sm) PI: Lai-Yung Ruby Leung, Pacific Northwest National Laboratory (PNNL)	Cori	131