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Abstract:
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As the Internet has grown, so has the challenge of accurate measurement and
modeling of its topology. Commonly used but coarse methods of measuring
topology, e.g., BGP tables, suffer from several limitations. To pursue more
accurate empirically-based topology modeling. CAIDA began its Macroscopic
Topology Project in 1998, The project focus is actively measuring topology
and round trip time (RTT) information across a wide cross-section of the
commodity Internet. In this paper we describe CAIDA's topology measurement
architecture and our analysis and visualization tools. We describe
differences between IP and AS (BGP-based) granularities of topology
modeling, including advantages and limitations of both, as well as how
correlation between both types of data can yield more relevant insights. We
introduce four new visualization metaphors for handling macroscopic
topology data, as well as a tool for aggregating multiple IP addresses into
the same physical router. We highlight results of our analyses, in
particular relationships between RTT and topology data, and how source and
destination selection and geopolitical boundaries affect those
relationships.
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