Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/13891
Title: Performance preserving topological downscaling of Internet-like networks
Authors: Govindan, Ramesh 
Papadopoulos, Fragkiskos 
Psounis, Konstantinos
Major Field of Science: Engineering and Technology
Field Category: Electrical Engineering - Electronic Engineering - Information Engineering
Keywords: Efficient network simulation | Performance prediction | Topology downscaling | Transmission control protocol (TCP)/closed-loop networks
Issue Date: 1-Dec-2006
Source: IEEE Journal on Selected Areas in Communications, Volume 24 , Issue: 12 , Dec. 2006
Volume: 24
Issue: 12
Journal: IEEE Journal on Selected Areas in Communications 
Abstract: The Internet is a large, heterogeneous system operating at very high speeds and consisting of a large number of users. Researchers use a suite of tools and techniques in order to understand the performance of complex networks like the Internet: measurements, simulations, and deployments on small to medium-scale testbeds. This work considers a novel addition to this suite: a class of methods to scale down the topology of the Internet that enables researchers to create and observe a smaller replica, and extrapolate its performance to the expected performance of the larger Internet. This is complementary to the work of Psounis et al., 2003, where the authors presented a way to scale down the Internet in time, by creating a slower replica of the original system. The key insight that we leverage in this work is that only the congested links along the path of each flow introduce sizable queueing delays and dependencies among flows. Hence, one might hope that the network properties can be captured by a topology that consists of the congested links only. Using extensive simulations with transmission control protocol (TCP) traffic and theoretical analysis, we show that it is possible to achieve this kind of performance scaling even on topologies the size of the CENIC backbone (that provides Internet access to higher education institutions in California). We also show that simulating a scaled topology can be up to two orders of magnitude faster than simulating the original topology. © 2006 IEEE.
ISSN: 07338716
DOI: 10.1109/JSAC.2006.884029
Type: Article
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