Evaluating System Parameters on a Dragonfly using Simulation and Visualization
Illinois Research and Technical Reports - Computer Science (CS Res. & Tech. Report) 2015
Publication Type: Paper
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Abstract
The dragonfly topology is becoming a popular choice for building high-radix,
low-diameter networks with high-bandwidth links. Even with a powerful network,
preliminary experiments on Edison at NERSC have shown that for
communication heavy applications, job interference and thus presumably job
placement remains an important factor. In this paper, we explore the effects of
job placement, job sizes, parallel workloads and network configurations on
network throughput to better understand inter-job interference. We use a
simulation tool called Damselfly to model the network behavior of Edison and
study the impact of various system parameters on network throughput. Parallel
workloads based on five representative communication patters are used and the
simulation studies on up to 131,072 cores are aided by a new visualization of
the dragonfly network.
People
- Abhinav Bhatele
- Nikhil Jain
- Yarden Livnat
- Valerio Pascucci
- Peer-Timo Bremer
Research Areas