OLCF’s Ashley Barker Takes on New Role, Steps Down from ECP
Ashley Barker will step down as lead of ECP's Training & Productivity for new duties at the Oak Ridge Leadership Computing Facility.
Ashley Barker will step down as lead of ECP's Training & Productivity for new duties at the Oak Ridge Leadership Computing Facility.
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.
June 21 at 2 p.m. Eastern, ECP and the Argonne Leadership Computing Facility will host a Twitter Chat on the Extreme-scale Scientific Software Stack.
The Exascale Computing Project has made available a compilation of brief, high-level presentations about some of its project portfolios.
The Exascale Computing Project Software Deployment at Facilities project tests and verifies software functionality and efficiency.
At insideHPC, Doug Black outlines the formidable set of technical challenges that revolves around engineering exascale-level supercomputers.
Writer Brandi Vincent on Nextgov hits the highlights of the recent Exascale Awareness Week leading up to Exascale Day, October 18, 2020.
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.
The Exascale Computing Project is building scientific instruments for the gamut of computing devices to advance scientific knowledge and materials design and energy generation.
Members of the Exascale Computing Project leadership team summarize the state of the project and delve into the major accomplishments.
The US Department of Energy has authorized scientists at General Electric to access one of the world's most powerful computers to advance offshore wind power.
In the latest episode of the Let's Talk Exascale podcast, John Turner of Oak Ridge National Laboratory provides a look at additive manufacturing and the ExaAM project from different angles.
Writer Jennifer Huber of NERSC delves into ExaWind's science challenge problem, its use of the computational code called Nalu-Wind, and its collaboration.
Jennifer Huber of NERSC writes about how the ExaWind project is advancing our basic understanding of the flow physics governing wind plant performance.
Machine learning, artificial intelligence, and data analytics are converging with high-performance computing to advance scientific discovery.
Technologies known as the Data Transfer Kit (DTK) and ArborX enable researchers to focus more on their science rather than on low-level algorithms in simulations.
A newly released report introduces work to advance software productivity and sustainability for extreme-scale computational science.
Gina Tourassi discusses the Oak Ridge National Laboratory effort within the Exascale Deep Learning–Enabled Precision Medicine for Cancer (CANDLE) project.