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Publications of Torsten Hoefler
Torsten Hoefler:
| | | Optimized routing and process mapping for arbitrary network topologies
(Presentation - presented in Tokyo, Japan, Jun. 2012, Tokyo Institute of Technology )
AbstractThe network topology is one of the most important parameters of
large-scale systems. In this talk we discuss supporting techniques for
arbitrary topologies with regards to performance and energy consumption.
First and foremost, efficient deadlock-free routing strategies are
crucial to the performance of large-scale computing systems. We
demonstrate a novel routing strategy based on the
single-source-shortest-path routing algorithm and extend it to use
virtual channels to guarantee deadlock-freedom. We show that this
algorithm achieves low latency, high-bandwidth with only a low number of
virtual channels. We implemented the proposed algorithm in InfiniBand's
Open Subnet Manager and compared the number of needed virtual channels
and the bandwidth of multiple real and artificial network topologies to
established practice. Application benchmarks showed an improvement of up
to 95%. In addition, mapping application communication topologies to
underlying network topologies is as important as optimized routing. We
demonstrate an efficient and fast new heuristic which is based on graph
similarity and show its utility with application communication patterns
on real topologies. Our mapping strategies support arbitrary
heterogeneous networks and show significant reduction of congestion on
torus, fat-tree, and the PERCS network topologies for irregular
problems, respectively. Our efficient topology mapping strategies are
shown to reduce network congestion by up to 80%, reduce average dilation
by up to 50%, and improve benchmarked communication performance by 18%.
Those two techniques show a path towards new, potentially irregular
network topologies for upcoming extreme-scale systems.
Documents
download slides: 
| | | BibTeX | @misc{hoefler-tokyotech,
author={Torsten Hoefler},
title={{Optimized routing and process mapping for arbitrary network topologies}},
year={2012},
month={Jun.},
location={Tokyo, Japan},
note={Tokyo Institute of Technology},
source={http://www.unixer.de/~htor/publications/},
} |
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