codesign.llnl.gov
Codesign at Lawrence Livermore National Laboratory
https://codesign.llnl.gov/index.php
Lawrence Livermore National Laboratory. At Lawrence Livermore National Lab. Co-design is about where the state of computing is going, rather than just focusing on creating one specific machine. Computation Associate Division Leader. Proposed for the exascale era, and LLNL is actively pursuing a strategy to both leverage our co-design experience and to update it to meet the realities of today’s dynamic HPC environment, with huge lead-times between concept and realization. Providing a living laboratory for...
codesign.llnl.gov
Codesign at Lawrence Livermore National Laboratory
https://codesign.llnl.gov/exmatex.php
Lawrence Livermore National Laboratory. At Lawrence Livermore National Lab. The Exascale Co-Design Center for Materials in Extreme Environments (ExMatEx). ExMatEx focuses effort in four primary areas:. Scale-bridging algorithms: ExMatEx employs uncertainty quantification-driven adaptive physics refinement, in which coarse-scale simulations dynamically spawn tightly coupled and self-consistent fine-scale simulations as needed. Programming models: ExMatEx uses a task-based, scale-bridging programming appro...
codesign.llnl.gov
Codesign at Lawrence Livermore National Laboratory
https://codesign.llnl.gov/other-exascale-activity.php
Lawrence Livermore National Laboratory. At Lawrence Livermore National Lab. LLNL's Jeff Hittinger co-chairs the ASCR Exascale Mathematics Working Group with the University of Tennessee's Jack Dongarra. Jeff is also part of the Applied Mathematics/Performance Modeling Nexus. LLNL ASC Proxy Apps. LLNL ASC Co-design Activities. Are you a vendor or researcher interested in exploring co-design with LLNL? For additional information, please contact our team. Lawrence Livermore National Laboratory.
trilinos.org
Meshes, Geometry and Load Balancing – The Trilinos Project
https://trilinos.org/capability-areas/meshes-geometry-and-load-balancing
Skip to primary content. Skip to secondary content. Software Engineering Technologies and Integration. Meshes, Geometry and Load Balancing. Linear and Eigen Solvers. Embedded Nonlinear Analysis Tools. Adding CXX11 Dependencies for Packages. Building with CUDA Support. Trilinos User Group Meeting 2016. Spring Developer Meeting 2016. European Trilinos User Group Meeting 2016. Trilinos User Group Meeting 2015. European Trilinos User Group Meeting 2015. Spring Developer Meeting 2015. NOX and LOCA Doxygen.
software.sandia.gov
Sandia National Laboratories Computing Research Center User account
https://software.sandia.gov/home/user
Skip to main content. Log in (active tab). Enter your Computing Research Center username. Enter the password that accompanies your username. 1997-2014 Sandia Corporation Questions and Comments. News release RSS feed. And Danang Probo Sayekti.
codesign.llnl.gov
Codesign at Lawrence Livermore National Laboratory
https://codesign.llnl.gov/fast-forward.php
Lawrence Livermore National Laboratory. At Lawrence Livermore National Lab. A key to successfully developing next-generation HPC capabilities is bringing together the know-how and best minds of industry leaders and national labs to work on this grand challenge.". National Nuclear Security Administration. In 2012, awards to advance innovative extreme-scale computing technology were given to five companies in three high-performance computing technology areas: processors, memory, and storage and input/output.
software.sandia.gov
Sandia National Laboratories Computing Research Center Developer Tools
https://software.sandia.gov/home/content/developer-tools
Skip to main content. Visit the following web pages to access the support and development tools available on this web server. A bug reporting tool. Another bug reporting tool. A mailing list manager. A web content management platform. 1997-2014 Sandia Corporation Questions and Comments. News release RSS feed. And Danang Probo Sayekti.