Performance evaluation of MM5 on clusters with modern interconnects: Scalability and impact

Abstract

Clusters have become a crucial technology for providing low-cost high performance computing to scientific applications like weather prediction. In addition, networks like Myrinet, InfiniBand and Quadrics have become popular as an interconnection technology for high performance clusters. The high-bandwidth, low-latency characteristics of these networks make them ideally suited to the demanding characteristics of large scale weather simulations. Additionally, these networks have features like efficient and scalable hardware broadcast, reduce and atomic operations. Some of the features have been integrated into the MPI stack for these networks, allowing the user to exploit them for improved performance. In this paper, we evaluate the communication characteristics of a popular weather simulation code MM5 using InfiniBand. We also investigate how special features of InfiniBand like scalable broadcast can benefit MM5 performance. For some workloads, we see that InfiniBand performs up to 34% better than other interconnects. It also performs better in general than other networks for all workloads. © Springer-Verlag Berlin Heidelberg 2005.