EXAALT and Kokkos: Making Exascale Simulations of Material Behavior a “SNAP”

Molecular dynamics has become a cornerstone of computational science and is a key component of developing materials with enhanced properties.

Exascale Computing Project Contributes to Accelerating Cancer Research

The Exascale Computing Project's CANDLE application will improve cancer research techniques and clinical outcomes

E4S Deployments Boost Industry’s Acceptance and Use of Accelerators

Industry leaders reflected on successful deployments of the Exascale Computing Project’s (ECP’s)  Extreme-Scale Scientific Software Stack (E4S).


Exascale to Model Fusion Energy

A Career Discussion with Tapasya Patki

The ECP has provided tremendous opportunities for young researchers to develop knowledge and relationships in the high-performance computing community

ECP Participation at SC23

ECP Participation at SC23

Building a Capable Computing Ecosystem for Exascale and Beyond

The Exascale Era is here.

Exascale Drives Industry Innovation for a Better Future

Exascale capability opens pathways to explore promising new technologies and products and accelerate time to commercialization.

Exascale Modeling of Advanced Particle Accelerators with WarpX

Exascale Meets Particle Accelerators

EXAALT-ing Molecular Dynamics to the Power of Exascale

New methods maximizing the accuracy, length, and time space on exascale machines could revolutionize molecular dynamics simulations.

Exploring the Universe and Nature’s Physical Processes with Unprecedented Power

Exascale supercomputers will play a pivotal role in creating highly accurate computer simulations of the universe.

LLNL’s Diachin takes helm of DOE’s Exascale Computing Project

Lawrence Livermore National Laboratory’s Lori Diachin will take over as director of the Department of Energy’s Exascale Computing Project on June 1

Combustion-Pele: A New Exascale Capability for Improving Engine Design

A robust application suite for modeling complex combustion processes informs next-generation engine design.

Predicting the Future of Fission Power

Optimized for exascale supercomputers, the ExaSMR simulation toolkit advances state-of-the-art nuclear reactor design.

WarpX Code Shines at the Exascale Level

The WarpX project is using supercomputers to develop the next generation of particle accelerators to propel science and applications.

Advancing the Additive Manufacturing Revolution

Additive manufacturing heralds a new era of precision manufacturing that the ExaAM project aims to advance as a viable method for industry.

EQSIM Shakes up Earthquake Research at the Exascale Level

ECP's EQSIM project exceeds conventional methods of quantifying earthquake effects by using physics-based supercomputer simulations.

ECP-supported collaborative teams win the 2022 ACM Gordon Bell Prize and Special Prize

Research efforts aimed at developing new particle accelerators and understanding COVID-19 won prestigious awards Nov. 17 at SC22 in Dallas.

U.S. Department of Energy to showcase advances in supercomputing and national lab expertise at SC22

The Energy Department celebrates the arrival of exascale computing and its impact on breakthrough science discoveries at SC22, Nov. 13–18, in Dallas.

Discovering New Materials at Exascale Speed

A redesigned QMCPACK promises unmatched accuracy in simulating materials to uncover their hidden properties.

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