Publications

Publications / Conference Poster

Exploring Asynchronous Many-Task Runtime Systems toward Extreme Scales

Knight, Samuel K.; Baker, Gavin M.; Gamell, Marc G.; Hollman, David S.; Sjaardema, Gregor S.; Kolla, Hemanth K.; Teranishi, Keita T.; Wilke, Jeremiah J.; Slattengren, Nicole L.; Bennett, Janine C.

Major exascale computing reports indicate a number of software challenges to meet the dramatic change of system architectures in near future. While several-orders-of-magnitude increase in parallelism is the most commonly cited of those, hurdles also include performance heterogeneity of compute nodes across the system, increased imbalance between computational capacity and I/O capabilities, frequent system interrupts, and complex hardware architectures. Asynchronous task-parallel programming models show a great promise in addressing these issues, but are not yet fully understood nor developed su ciently for computational science and engineering application codes. We address these knowledge gaps through quantitative and qualitative exploration of leading candidate solutions in the context of engineering applications at Sandia. In this poster, we evaluate MiniAero code ported to three leading candidate programming models (Charm++, Legion and UINTAH) to examine the feasibility of these models that permits insertion of new programming model elements into an existing code base.