2 research outputs found
Dynamic Loop Scheduling Using MPI Passive-Target Remote Memory Access
Scientific applications often contain large computationally-intensive
parallel loops. Loop scheduling techniques aim to achieve load balanced
executions of such applications. For distributed-memory systems, existing
dynamic loop scheduling (DLS) libraries are typically MPI-based, and employ a
master-worker execution model to assign variably-sized chunks of loop
iterations. The master-worker execution model may adversely impact performance
due to the master-level contention. This work proposes a distributed
chunk-calculation approach that does not require the master-worker execution
scheme. Moreover, it considers the novel features in the latest MPI standards,
such as passive-target remote memory access, shared-memory window creation, and
atomic read-modify-write operations. To evaluate the proposed approach, five
well-known DLS techniques, two applications, and two heterogeneous hardware
setups have been considered. The DLS techniques implemented using the proposed
approach outperformed their counterparts implemented using the traditional
master-worker execution model