Network coding in a multicast switch

Minji Kim, Jay Kumar Sundararajan, Muriel Médard, Atilla Eryilmaz, Ralf Kötter

Research output: Contribution to journalArticlepeer-review

7 Scopus citations

Abstract

The problem of serving multicast flows in a crossbar switch is considered. Intraflow linear network coding is shown to achieve a larger rate region than the case without coding. A traffic pattern is presented which is achievable with coding but requires a switch speedup when coding is not allowed. The rate region with coding can be characterized in a simple graph-theoretic manner, in terms of the stable set polytope of the enhanced conflict graph. No such graph-theoretic characterization is known for the case of fanout-splitting without coding. The minimum speedup needed to achieve 100% throughput with coding is shown to be upper bounded by the imperfection ratio of the enhanced conflict graph, where the imperfection ratio measures a certain graph theoretic property of the given graph. When applied to K × N switches with unicasts and broadcasts only, this gives a bound of min (2K-1/K ,2N/N+1) on the speedup. This shows that speedup, which is usually implemented in hardware, can often be substituted by network coding, which can be done in software. Computing an offline schedule (using prior knowledge of the flow rates) is reduced to fractional weighted graph coloring. A graph-theoretic online scheduling algorithm (using only queue occupancy information) is also proposed, that stabilizes the queues for all rates within the rate region.

Original languageEnglish
Article number5673783
Pages (from-to)436-460
Number of pages25
JournalIEEE Transactions on Information Theory
Volume57
Issue number1
DOIs
StatePublished - Jan 2011

Keywords

  • Imperfection ratio
  • multicast switch
  • network coding
  • rate region
  • scheduling
  • speedup

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