The Exascale Computing Project Selects Sunita Chandrasekaran as Principal Investigator of the SOLLVE Project
Sunita Chandrasekaran of Brookhaven National Laboratory is the new principal investigator of the SOLLVE project, which is advancing OpenMPI.
Sunita Chandrasekaran of Brookhaven National Laboratory is the new principal investigator of the SOLLVE project, which is advancing OpenMPI.
Al Geist on the history of the Exascale Computing Project
The Exascale Computing Project has made available a compilation of brief, high-level presentations about some of its project portfolios.
The Exascale Computing Project (ECP) is investing heavily in software for the forthcoming exascale systems.
March 30–April 1, ECP will offer 13 informative 90-minute sessions on various high-performance computing topics to promote interactive discussions.
V2.5 of the Exascale Computing Project Software Technology Capability Assessment Report covers current capabilities and activities.
Exascale Computing Project researchers Daniel Kasen and Rob Ross recently received one of the US Department of Energy's highest honors.
The winner and two of three finalists of the SC20 Gordon Bell Special Award for COVID-19 competition leveraged the scalable workflow technologies brou
The newly released Extreme-scale Scientific Software Stack (E4S) v1.2 contains the majority of the ECP Software Technology portfolio of software products.
The extreme-scale scientific software stack (E4S) provides a fundamentally new resource for computational and data science research communities.
By Franck Cappello1 with Bogdan Nicolae1, Sheng Di1, Kathryn Mohror2, Adam Moody2 and Greg Kosinovsky2 1Argonne National Laboratory 2Lawrence Livermore National Laboratory Exascale will undoubtedly mark a historical milestone
By Pat McCormick Exascale can mean different things based on your experience and the role you play in taking our computing capabilities to the next
By Ulrike Meier Yang The pursuit of exascale promises larger and faster computers capable of performing increasingly more complex simulations at
by Sameer Shende As we near this important milestone in High Performance Computing, I believe we may need to step back and examine the key choices we
By Todd Munson A vibrant, high-quality software ecosystem is essential to realizing the full potential of exascale computing resources in helping
The Exascale Computing Project's software engineers and computer scientists are building a pyramid—a software stack—that will support exascale's full processing power.
When the US Department of Energy boots up the world’s first generation of exascale supercomputers next year
Antypas is currently the division deputy and Data Department head at the National Energy Research Scientific Computing Center (NERSC) at Lawrence Berkeley National Laboratory. She replaces Terri Quinn, who is returning to her full-time responsibilities as deputy associate director for Livermore Computing, Lawrence Livermore National Laboratory’s high-performance computing organization.
Using high-performance computers, researchers at Princeton and the Princeton Plasma Physics Laboratory aim to quickly and accurately predict the onset of disruption disturbances involving the rapid releases of plasma that can cause structural damage in fusion reactors.
The Energy Department's Exascale Computing Project has published a milestone report summarizing the status of its 30 Application Development subprojects (24 applications and six co-design centers) at the end of fiscal year 2019.