Center for Applied Scientific Computing, Lawrence Livermore National Laboratory
LLNL’s role has been the arithmetic intensity analysis and development of ABFT schemes for high-order finite volume methods for hyperbolic systems. In addition, the ROSE team at Livermore has led the tool development effort
- Jeffrey A. F. Hittinger, Project Lead
- John Loffeld
- Dan Quinlan
- Chunhua "Leo" Liao
Applied Numerical Algorithms Group, Lawrence Berkeley National Laboratory
LBNL’s role has been the arithmetic intensity analysis and development high-order particle methods and local discrete convolution methods. In addition, LBNL has led the development of resilience techniques for hierarchical block-structure AMR algorithms through collaboration with the Global View Resilience project at Argonne National Laboratory. Finally, the LBNL team has been investigating segmental refinement techniques for low-memory versions of multigrid.
- Brian van Straalen, LBNL Lead
- Andrew Meyers
- Anshu Dubey
- Mark Adams
- Phil Collela
Colorado State University
The CSU team has focused on highly performant implementations of high-order finite volume discretizations through a variety of data arrangement and code organization optimizations, including the use of dynamic runtime systems.
- Stephen Guzik, CSU Lead
- Catherine Olschanowsky