Assessing the Performance of the SRR Loop Scheduler with Irregular Workloads
- Pedro Henrique Penna ,
- E. C. Inacio ,
- M. Castro ,
- P. Plentz ,
- H. Freitas ,
- François Broquedis ,
- Jean-François Méhaut
2008 41st IEEE/ACM International Symposium on Microarchitecture | , pp. 255-264
The input workload of an irregular application must be evenly distributed among its threads to enable cutting-edge performance. To address this need in OpenMP, several loop scheduling strategies were proposed. While having this ever-increasing number of strategies at disposal is helpful, it has become a non-trivial task to select the best one for a particular application. Nevertheless, this challenge becomes easier to be tackled when existing scheduling strategies are extensively evaluated. Therefore, in this paper, we present a performance and scalability evaluation of the recently-proposed loop scheduling strategy named Smart Round-Robin (SRR). To deliver a comprehensive analysis, we coupled a synthetic kernel benchmarking technique with several rigorous statistical tools, and considered OpenMP’s Static and Dynamic loop schedulers as our baselines. Our results unveiled that SRR performs better on irregular applications with symmetric workloads and coarse-grained parallelization, achieving up to 1.9x and 1.5x speedup over OpenMP’s Static and Dynamic schedulers, respectively.