Abstract. In situ computation of Lagrangian flow maps to enable post hoc time-varying vector field analysis has recently become an active area of research.
Our study consisted of experiments computing Lagrangian flow maps with up to 67M particle trajectories over 500 cycles and used as many as 2048 GPUs across 512 ...
In this paper, we consider a communication-free model for ex- tracting local Lagrangian flow maps. We compare this approach with the traditional computation of ...
Jun 1, 2021 · Our proposed optimization is a communication-free model resulting in local Lagrangian flow maps, requiring no message passing or synchronization ...
Bibliographic details on Scalable In Situ Computation of Lagrangian Representations via Local Flow Maps.
Sudhanshu's dissertation focused on advancing Lagrangian-based techniques that enable exploration of large time-varying vector fields as well as demonstrating ...
Apr 4, 2020 · We introduce and evaluate a new algorithm for the in situ extraction of Lagrangian flow maps, which we call Boundary Termination Optimization (BTO).
Missing: Representations Local
We introduce and evaluate a new algorithm for the in situ extraction of Lagrangian flow maps, which we call Boundary Termination Optimization (BTO).
Our study consisted of experiments computing Lagrangian flow maps with up to 67M particle trajectories over 500 cycles and used as many as 2048 GPUs across 512 ...
Scalable In Situ Computation of Lagrangian Representations via Local Flow Maps... Conference Paper. June, 2021. The Exascale Framework for High Fidelity ...