Ratul Mahajan scite author profile

To date, realistic ISP topologies have not been accessible to the research community, leaving work that depends on topology on an uncertain footing. In this paper, we present new Internet mapping techniques that have enabled us to directly measure router-level ISP topologies. Our techniques reduce the number of required traces compared to a brute-force, all-to-all approach by three orders of magnitude without a significant loss in accuracy. They include the use of BGP routing tables to focus the measurements, exploiting properties of IP routing to eliminate redundant measurements, better alias resolution, and the use of DNS to divide each map into POPs and backbone. We collect maps from ten diverse ISPs using our techniques, and find that our maps are substantially more complete than those of earlier Internet mapping efforts. We also report on properties of these maps, including the size of POPs, distribution of router outdegree, and the inter-domain peering structure. As part of this work, we release our maps to the community.

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Controlling high bandwidth aggregates in the network

Mahajan¹,

Bellovin²,

Floyd³

et al. 2002

SIGCOMM Comput. Commun. Rev.

558

400

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The current Internet infrastructure has very few built-in protection mechanisms, and is therefore vulnerable to attacks and failures. In particular, recent events have illustrated the Internet's vulnerability to both denial of service (DoS) attacks and flash crowds in which one or more links in the network (or servers at the edge of the network) become severely congested. In both DoS attacks and flash crowds the congestion is due neither to a single flow, nor to a general increase in traffic, but to a well-defined subset of the traffic -an aggregate. This paper proposes mechanisms for detecting and controlling such high bandwidth aggregates. Our design involves both a local mechanism for detecting and controlling an aggregate at a single router, and a cooperative pushback mechanism in which a router can ask upstream routers to control an aggregate. The presentation in this paper is a first step towards a more rigorous evaluation of these mechanisms. While certainly not a panacea, these mechanisms could provide some needed relief from flash crowds and flooding-style DoS attacks.

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Augmenting mobile 3G using WiFi

2010

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Dynamic scheduling of network updates

et al. 2014

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We present Dionysus, a system for fast, consistent network updates in software-defined networks. Dionysus encodes as a graph the consistency-related dependencies among updates at individual switches, and it then dynamically schedules these updates based on runtime differences in the update speeds of different switches. This dynamic scheduling is the key to its speed; prior update methods are slow because they pre-determine a schedule, which does not adapt to runtime conditions. Testbed experiments and data-driven simulations show that Dionysus improves the median update speed by 53-88% in both wide area and data center networks compared to prior methods.

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Measuring ISP topologies with rocketfuel

2002

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Ratul Mahajan

Measuring ISP Topologies With Rocketfuel

Achieving high utilization with software-driven WAN

Diversity in smartphone usage

Measuring ISP topologies with rocketfuel

Controlling high bandwidth aggregates in the network

Augmenting mobile 3G using WiFi

Dynamic scheduling of network updates

Measuring ISP topologies with rocketfuel

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