Frontier: Designing the Electrical Infrastructure for a Supercomputer with Unprecedented Power Demands
Effective communications, humble problem-solving, lessons learned, and synergy are success factors in realizing the Frontier supercomputer.
Effective communications, humble problem-solving, lessons learned, and synergy are success factors in realizing the Frontier supercomputer.
Engineer David Grant must check and recheck many important design details before Frontier, the nation’s first exascale supercomputer, is powered on.
Justin Whitt describes what Frontier will do, why it's unique, progress with deployment, what’s special about exascale computing, and more.
As principal investigator of the ECP SOLLVE project, Sunita Chandrasekaran emphasizes the development of sustainable software.
The ExaSGD project wants to enable the day-to-day operation of the national power grid to hold a large number of renewable power sources.
The latest in the code-for-Aurora series explores an app aimed at high-fidelity whole device modeling of magnetically confined fusion plasmas.
ExaGraph aims to leave a lasting legacy of algorithms, implementations, and graph-enabled applications for scientific discovery.
The National Energy Research Scientific Computing Center (NERSC) at Lawrence Berkeley National Laboratory (Berkeley Lab) today formally unveiled the f
This time, ECP's special podcast series on preparing code for the Aurora exascale supercomputer takes a look at the cosmological code HACC.
The Exascale Computing Project Software Deployment at Facilities project tests and verifies software functionality and efficiency.
ECP’s special podcast series on preparing code for the Aurora exascale system begins by focusing on an earthquake risk assessment application.
Simulating earthquake processes from end to end is key to being able to design bridges and buildings to be more resilient to earthquakes.
ECP's Data and Visualization portfolio is delivering data management software to store, save state, share, and facilitate the analysis of exascale data.
The EXAALT project could bring atomistic materials predictions to the engineering scale and demystify materials design and synthesis.
By exploiting the power and performance advantages of GPUs and exascale computing, researchers aim to better predict changes to Earth’s water cycles.
Spack (Supercomputer PACKage manager) is an R&D 100–Award winner because of its worldwide impact on high-performance computing.
The ZFP software development effort is tackling the critical task of overcoming the performance cost of data movement for exascale computing.
The WarpX project is developing an exascale application for plasma accelerator research that will pave the way for new breeds of virtual experiments.
Machine learning, artificial intelligence, and data analytics are converging with high-performance computing to advance scientific discovery.
CODAR, an Exascale Computing Project co-design center, aims to produce an infrastructure for online data analysis and reduction.