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Filters: Author is Xian He Sun, Illinois Institute of Technology  [Clear All Filters]
2017-09-01
Ning Liu, Illinois Institute of Technology, Adnan Haider, Illinois Institute of Technology, Dong Jin, Illinois Institute of Technology, Xian He Sun, Illinois Institute of Technology.  2017.  Modeling and Simulation of Extreme-Scale Fat-Tree Networks for HPC Systems and Data Centers. ACM Transactions on Modeling and Computer Simulation (TOMACS). 27(July 2017):2.

As parallel and distributed systems are evolving toward extreme scale, for example, high-performance computing systems involve millions of cores and billion-way parallelism, and high- capacity storage systems require efficient access to petabyte or exabyte of data, many new challenges are posed on designing and deploying next-generation interconnection communication networks in these systems. Fat-tree networks have been widely used in both data centers and high-performance computing (HPC) systems in the past decades and are promising candidates of the next-generation extreme-scale networks. In this article, we present FatTreeSim, a simulation framework that supports modeling and simulation of extreme-scale fattree networks with the goal of understanding the design constraints of next-generation HPC and distributed systems and aiding the design and performance optimization of the applications running on these systems. We have systematically experimented FatTreeSim on Emulab and Blue Gene/Q and analyzed the scalability and fidelity of FatTreeSim with various network configurations. On the Blue Gene/Q Mira, FatTreeSim can achieve a peak performance of 305 million events per second using 16,384 cores. Finally, we have applied FatTreeSim to simulate several large-scale Hadoop YARN applications to demonstrate its usability.