Exascale Computing Project Q&A: Building science applications for a new era of supercomputers Applications are the tools that direct a computer to work on specific tasks. Scientific applications for high-performance
QA with Rajeev Thakur of the ECP Software Technology Co-Design Center.
Read an overview of the status of the latest ECP software and hardware developments presented at SC16.
The Exascale Computing Project leadership team presented this overview of the ECP mission, structure, funded projects and future direction at an SC16 Birds-of-a-Feather session.
The Department of Energy’s Exascale Computing Project (ECP) announced that it has selected four co-design centers as part of a 4 year, $48 million funding award.
The Exascale Computing Project (ECP) has announced the selection of 35 software development proposals representing 25 research and academic organizations.
Exascale computing is essential to study the catalysis process because of the large number of atoms that must be treated with accurate methods.
Hot material roils around a newly-born neutron star at the center of a core-collapse supernova.
LCLS is revealing biological structures that could help scientists design new life-saving drugs with limited side effects.
Exascale computing can dramatically increase our understanding of earthquake processes and improve estimates of future ground motions.
Intermittent renewable sources (wind and solar), electric vehicles, and smart loads will vastly change the behavior of the world’s biggest machine, the electric power grid.
Exascale computing is essential to study the catalysis process because of the large number of atoms that must be treated with accurate methods.
Analyzing the DNA of microorganism communities is one of the most computationally demanding tasks in bioinformatics, requiring exascale computing and advanced algorithms.
Simulations that fully exploit exascale can solve key problems in fission and fusion materials
The video shows a portion of a simulation of the cosmological structure formation from the HACC code's 'Q Continuum' run on Titan.
The ECP CANDLE project is working with the National Cancer Institute to accelerate the development of optimal cancer treatment strategies.
The U.S. Department of Energy collaborates with the National Cancer Institute to apply supercomputing number-crunching power to cancer research.
The National Renewable Energy Laboratory (NREL) will work on wind plant modeling and three other projects for the ECP.
Ames Laboratory will contribute expertise to two ECP projects related to computational chemistry software.
Oak Ridge scientists are writing code that not even the world's fastest computers can run (yet).
