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A Framework for Scalable Global IP-Anycast

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Title: Automatic Load Balancing Using Anycast Author: ee4xgaural Last modified by: yguan Created Date: 5/1/2000 7:36:43 PM Document presentation format – PowerPoint PPT presentation

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Title: A Framework for Scalable Global IP-Anycast


1
A Framework for Scalable Global IP-Anycast
  • Sigcomm 2000, Dina Katabi
  • Presented by Wei Yu

2
Outline
  • Motivation
  • Introduction
  • Background work
  • Idea design detail
  • Performance Evaluation
  • Result

3
Motivation
  • A scalable architecture for Global IP-Anycast
  • Existing design drawback
  • Global Distribute route to individual group gtnot
    scalable
  • Idea dividing inter-domain routing into two
    parts
  • Build inexpensive anycast route, consume no BW
    and storage space
  • Edge domain generate anycast routes according to
    the interest.

4
What is Anycast?
  • Anycast ( RFC 1546) sender to access the nearest
    of a group of receiver sharing anycast address
  • Application service discovery host
    autoconfiguration
  • EX replicated FTP server, mirror web server

5
Background related work
  • IP level solution proposed by IPv6
  • anycast routing
  • Application level solution Need directory system
  • disadvantage
  • overhead to collection information
  • lack bootstrap mechanism
  • advantage
  • easy to deploy
  • Difficulty scalable architecture
  • defies hierarchical aggregation
  • routing table

6
Idea
  • Unicast routing paradigm problem
  • waste routing resources
  • ex US Lindon gt devote more resource to
    frequency access anycast group
  • Using cache technology
  • Using edge domain resources, why?
  • Prevent wasting routing resources
  • push most of work to edge domain
  • Edge domain discover, store and maintain anycast
    route

7
Design detail
  • Address architecture

8
Design Detail
  • Anycast group classification

9
Design Detail
  • Routing internal anycast group
  • using unicast routing protocol
  • Routing unpopular anycast group
  • using default route to forward packets
  • Routing popular anycast group
  • initial search, receiving search, receiving
    reply, search scope TTL

10
Design details
Learning routes to popular anycast group
11
Performance Evaluation
  • Main results
  • nearest route
  • overhead ( millions global group)
  • Supposition
  • provide lower bound on efficiency
  • upper bound of overhead

12
Success route performance
13
Overhead
14
Scalable
15
Question ?
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