NERSCPowering Scientific Discovery Since 1974

Organic Photovoltaics Experiments Showcase 'Superfacility' Concept

A collaborative effort linking the Advanced Light Source at Berkeley Lab with supercomputing resources at NERSC and the Oak Ridge Leadership Computing Facility via ESnet is yielding exciting results that could transform the way researchers use these facilities and improve scientific productivity in the process. » Read More

Berkeley Lab Study Confirms Amassing CO₂ Heats Earth’s Surface

Analysis of a decade of atmospheric data helps scientists detect an increase in carbon dioxide’s greenhouse effect at the Earth’s surface. The culprit? Fossil fuel emissions. » Read More

New Algorithm Enables Faster Simulations of Ultrafast Processes

An enhancement to the real-time time-dependent density function theory code opens the door for real-time simulations in atomic-level materials research. » Read More

Raindrops Physics May Affect Climate Model Accuracy

Using NERSC supercomputers, researchers from the Pacific Northwest National Laboratory found that factors as small as how sizes of raindrops were represented in a computer model made a big difference in the accuracy of results. » Read More

Pinpointing the Magnetic Moments of Nuclear Matter

Using NERSC's Edison supercomputer, a team of nuclear physicists has made a key discovery in its quest to shed light on the structure and behavior of subatomic particles. » 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 CPU Cores CPU Core Hours Used
Lattice QCD Study of the Structure of Light Nuclei
 PI: Martin J. Savage, University of Washington
Hopper 15,360
Gyrokinetic Simulations of the Effect of Electron Heating on Particle and Electron Thermal Energy Transport in Magnetic Fusion Plasmas
 PI: Darin Ernst, Massachusetts Institute of Technology
Hopper 9,216
Electronic and optical properties of novel photovoltaic and thermoelectric materials from first-principles
 PI: Emmanouil S. Kioupakis, University of Michigan
Edison 7,200
Quantum Chromodynamics with four flavors of dynamical quarks
 PI: Doug Toussaint, University of Arizona
Edison 6,144
Quantum Chromodynamics with four flavors of dynamical quarks
 PI: Doug Toussaint, University of Arizona
Edison 6,144
Accurate theoretical predictions for systems of superheavy elements (SHE) using Dirac-Fock(Breit- Gaunt)Relativistic Coupled-Cluster methodology
 PI: Walter Loveland, Oregon State University
Carver 512

 

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Did You Know?

Each year NERSC's 5,000+ users report more than 1,500 peer-reviewed results based on work using our resources.