Publications Details

Modeling Workloads of a Linear Electromagnetic Code for Load Balancing Matrix Assembly

Lifflander, Jonathan J.; Pebay, Pierre L.; Mcgovern, Sean T.; Slattengren, Nicole L.

This report presents our work to model the workloads of a linear electromagnetic application based on the method of moments in the frequency domain to effectively load balance the matrix assembly. This application is particularly challenging to load balance due to its lack of persistent iterative behavior, its operation under tight memory constraint (where the matrix may fill 80% of memory on each node), and the algorithmic complexity of the computational method. This report describes the first step in our work to apply an inspector-executor approach for load balancing workloads where key parameters are exposed during the inspector phase and a pre-trained model is applied to predict relative task weights for the load balancer.