NERSCPowering Scientific Discovery Since 1974

Rare Supernova Discovery Ushers in New Era for Cosmology

Discovered! The first ever multiply-imaged gravitationally-lensed Type Ia supernova. With more of these events, researchers could measure the universe's expansion rate within four percent accuracy. Berkeley researchers do have a method for finding more. » Read More

Toward More Efficient Paper Manufacturing

Simulations run at NERSC as part of a unique collaboration between Berkeley Lab, Lawrence Livermore National Laboratory and an industry consortium could help U.S. paper manufacturers significantly reduce production costs and increase energy efficiencies. » Read More

Catching Extreme Waves

Using decades of global climate data generated at a spatial resolution of about 25 kilometers squared, researchers were able to capture the formation of tropical cyclones, also referred to as hurricanes and typhoons, and the extreme waves that they generate. » Read More

Machine Learning Method Could Accelerate Development of Metallic Materials for Aerospace

Using NERSC supercomputers, Berkeley Lab researchers built and trained machine learning algorithms to predict defect behavior in certain intermetallic compounds with high accuracy. » Read More

Simulations Reveal the Invisible Chaos of Superluminous Supernovae

Astrophysicists are running 2D simulations at NERSC to better understand the physical conditions that create rare superluminious supernovae. » Read More

NWChem’s Planewave Now “Purring” on Intel’s KNL Nodes

Berkeley Lab researchers have successfully added thread-level parallelism on top of MPI-level parallelism in the planewave density functional theory method within the popular software suite NWChem. An important step to ensuring that computational chemists are prepared to compute efficiently on next-generation exascale machines. » Read More

National Energy Research Scientific Computing Center

Computing at NERSC

Now Computing

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

Project Machine Nodes NERSC Hours Used
Direct Numerical Simulations of Clean and Efficient Combustion with Alternative Fuels
 PI: Jacqueline Chen, Sandia National Laboratories - California
Cori KNL 1,840
Turbulence, Transport and Magnetic Reconnection in High Temperature Plasma
 PI: William Dorland, University of Maryland
Edison 1,366
NESAP: Extending the capabilities of Quantum Espresso for Cori
 PI: Paul R. Kent, Oak Ridge National Laboratory
Cori KNL 1,280
Quantum Chromodynamics with four flavors of dynamical quarks
 PI: Doug Toussaint, University of Arizona
Cori KNL 1,024
Lattice QCD Monte Carlo Calculation of Hadronic Structure and Spectroscopy
 PI: Keh-Fei Liu, University of Kentucky
Edison 860
Quantum Chromodynamics with four flavors of dynamical quarks
 PI: Doug Toussaint, University of Arizona
Edison 256

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HPC Transforms Cosmology

NERSC's Debbie Bard blogs about the role of HPC in advancing our understanding of the universe in Scientific Computing magazine.