Indirect/Irregular workloads within large simulations and how to improve access through co-design Galen Shipman Computer Scientist(Los Alamos National Laboratories) | Kisaco Research

Indirect/Irregular workloads within large simulations and how to improve access through co-design Galen Shipman Computer Scientist(Los Alamos National Laboratories)

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Galen Shipman

Computer Scientist
Los Alamos National Laboratories

Galen Shipman is a computer scientist at Los Alamos National Laboratory (LANL). His interests include programming models, scalable runtime systems, and I/O.  As Chief Architect he leads architecture and technology of Advanced Technology Systems (ATS) at LANL. He has led performance engineering across LANL’s multi-physics integrated codes and the advancement and integration of next-generation programming models such as the Legion programming system as part of LANL's next-generation code project, Ristra. His work in storage systems and I/O is currently focused on composable micro-services as part of the Mochi project. His prior work in scalable software for HPC include major contributions to broadly used technologies including the Lustre parallel file system and Open MPI.

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Galen Shipman

Computer Scientist
Los Alamos National Laboratories

Galen Shipman is a computer scientist at Los Alamos National Laboratory (LANL). His interests include programming models, scalable runtime systems, and I/O.  As Chief Architect he leads architecture and technology of Advanced Technology Systems (ATS) at LANL. He has led performance engineering across LANL’s multi-physics integrated codes and the advancement and integration of next-generation programming models such as the Legion programming system as part of LANL's next-generation code project, Ristra. His work in storage systems and I/O is currently focused on composable micro-services as part of the Mochi project. His prior work in scalable software for HPC include major contributions to broadly used technologies including the Lustre parallel file system and Open MPI.