The International Conference for High Performance Computing, Networking, Storage, and Analysis
The International Conference for High Performance Computing, Networking, Storage, and Analysis
Workshop: The 18th Workshop on Workflows in Support of Large-Scale Science (WORKS23) - Part 2 of 2
Authors: Mikhail Titov (Brookhaven National Laboratory); Robert Carson (Lawrence Livermore National Laboratory); Matthew Rolchigo and John Coleman (Oak Ridge National Laboratory); James Belak (Lawrence Livermore National Laboratory); Matthew Bement (Oak Ridge National Laboratory); Daniel Laney (Lawrence Livermore National Laboratory); and Matteo Turilli and Shantenu Jha (Rutgers University, Brookhaven National Laboratory)
Abstract: When running at scale, modern scientific workflows require middleware to handle allocated resources, distribute computing payloads and guarantee a resilient execution. While individual steps might not require sophisticated control methods, bringing them together as a whole workflow requires advanced management mechanisms. In this work, we used RADICAL-EnTK (Ensemble Toolkit) - one of the SDK components of the ECP ExaWorks project - to implement and execute the novel Exascale Additive Manufacturing (ExaAM) workflows on up to 8000 compute nodes of the Frontier supercomputer at the Oak Ridge Leadership Computing Facility. EnTK allowed us to address challenges such as varying resource requirements (e.g., heterogeneity, size, and runtime), different execution environment per workflow, and fault tolerance. And a native portability feature of the developed EnTK applications allowed us to adjust these applications for Frontier runs promptly, while ensuring an expected level of resource utilization (up to 90%).