Shining a Light on Electron's Role in Energy Transfer Among 2D Materials

The surprising results of a study facilitated by NERSC's supercomputing prowess could pave the way for a new generation of transistors. » Read More

Berkeley Lab is Leading the Charge to Superfacility

The aim is no less than an integrated and automated system for gathering, transporting, and analyzing scientific data in real time. » Read More

WarpX Goes Exascale

The ECP-funded WarpX Project has spent the last six years creating a novel, highly parallel, and highly optimized single-source simulation code for modeling plasma-based particle colliders on cutting-edge exascale supercomputers. » Read More

EQSIM's Sophisticated Earthquake Simulations

A collaboration involving scientists and computing resources from Berkeley Lab will publicly release its most accurate earthquake simulations to date. » Read More

Machine Learning Helps Process Large Bioimaging Datasets

Berkeley Lab scientists used several machine learning techniques in a pipeline to segment and identify cryo-ET cell membrane structures. » Read More

Perlmutter Results Show Progress in Quantum Information Science

The [email protected] program uses the Perlmutter supercomputer at NERSC to advance quantum information science (QIS). » Read More

National Energy Research Scientific Computing Center

Computing at NERSC

OURSYSTEMS DOCUMENTATIONFOR USERS CENTERSTATUS APPLY TOUSE NERSC

Now Computing

A small sample of jobs running on NERSC supercomputers right now.

Project	System	Nodes
Lattice QCD Monte Carlo Calculation of Hadronic Structure and Spectroscopy Nuclear Physics PI: Keh-Fei Liu, University of Kentucky	Cori	200
Turbulence, Transport and Magnetic Reconnection in High Temperature Plasma Fusion Energy Sciences PI: William Dorland, University of Maryland	Cori	128
Enabling HEP Frontier Science through HEPCloud High Energy Physics PI: Dirk Hufnagel, Fermi National Accelerator Laboratory	Cori	100
Using facet-ii and atf lepton beams in plasma-based acceleration: ionization injection of collider-quality beams and probing of plasma waves created by a self-modulated co2 lasers High Energy Physics PI: Navid Vafaei-Najafabadi, Stony Brook University	Cori	64
Continuing studies of plasma based accelerators High Energy Physics PI: Warren Mori, University of California Los Angeles	Cori	64
Simulation of Magnetically Confined Fusion Plasmas Fusion Energy Sciences PI: Ronald E. Waltz, General Atomics	Cori	32