The El Capitan Center of Excellence provides a conduit between national labs and commercial vendors, ensuring that the exascale system will meet everyone’s needs.
Topic: Co-Design
News Item
Hosted at LLNL, the Center for Efficient Exascale Discretizations’ annual event featured breakout discussions, more than two dozen speakers, and an evening of bocce ball.
News Item
The Center for Efficient Exascale Discretizations has developed innovative mathematical algorithms for the DOE’s next generation of supercomputers.
News Item
The Tri-Lab Operating System Stack (TOSS) ensures other national labs’ supercomputing needs are met.
News Item
Livermore Computing is making significant progress toward siting the NNSA’s first exascale supercomputer.
News Item
Innovative hardware provides near-node local storage alongside large-capacity storage.
News Item
Siting a supercomputer requires close coordination of hardware, software, applications, and Livermore Computing facilities.
News Item
The addition of the spatial data flow accelerator into LLNL’s Livermore Computing Center is part of an effort to upgrade the Lab’s cognitive simulation (CogSim) program.
News Item
LLNL participates in the ISC High Performance Conference (ISC23) on May 21–25.
News Item
Highlights include MFEM community workshops, compiler co-design, HPC standards committees, and AI/ML for national security.
News Item
AI/ML | Biology/Biomedicine | Co-Design | Collaborations | Compiler Technology | Computational Math | Computational Science | Computer Vision | Data Science | Deep Learning | Discrete Mathematics | Exascale | HPC Systems and Software | Natural Language Processing | Open-Source Software | Performance, Portability, and Productivity | Programming Languages and Models
LLNL and Amazon Web Services (AWS) have signed a memorandum of understanding to define the role of leadership-class HPC in a future where cloud HPC is ubiquitous.
News Item
Technologies developed through the Next-Generation High Performance Computing Network project are expected to support mission-critical applications for HPC, AI and ML, and high performance data analytics.
News Item
LC sited two different AI accelerators in 2020: the Cerebras wafer-scale AI engine attached to Lassen; and an AI accelerator from SambaNova Systems into the Corona cluster.
Project
The MAPP incorporates multiple software packages into one integrated code so that multiphysics simulation codes can perform at scale on present and future supercomputers.
Project
Proxy apps serve as specific targets for testing and simulation without the time, effort, and expertise that porting or changing most production codes would require.
Project
Co-Design | Computational Math | Computational Science | Discrete Mathematics | Emerging Architectures | HPC Systems and Software | Hydrodynamics | Open-Source Software | Performance, Portability, and Productivity | Programming Languages and Models | Proxy Apps | Software Engineering | Software Libraries | Solvers | Storage, File Systems, and I/O | Transport
Highlights include recent LDRD projects, Livermore Tomography Tools, our work with the open-source software community, fault recovery, and CEED.
News Item
AI/ML | Co-Design | Computational Math | Computational Science | Data Science | Deep Learning | Discrete Mathematics | Exascale | Fault Tolerance and Resilience | HPC Architectures | HPC Systems and Software | Hybrid/Heterogeneous | Open-Source Software | Resource and Workflow Management | Software Build and Installation
Veritas provides a method for validating proxy applications to ensure that they capture the intended characteristics of their parents.
Project