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SplitCast: Optimizing Multicast Flows in Reconfigurable Datacenter Networks

Long Luo, Klaus-Tycho Foerster, Stefan Schmid, Hongfang Yu

202026 citationsDOI

Abstract

Many modern cloud applications frequently generate multicast traffic, which is becoming one of the primary communication patterns in datacenters. Emerging reconfigurable datacenter technologies enable interesting new opportunities to support such multicast traffic in the physical layer: novel circuit switches offer high-performance inter-rack multicast capabilities. However, not much is known today about the algorithmic challenges introduced by this new technology.This paper presents SplitCast, a preemptive multicast scheduling approach that fully exploits emerging physical-layer multicast capabilities to reduce flow times. SplitCast dynamically reconfigures the circuit switches to adapt to the multicast traffic, accounting for reconfiguration delays. In particular, SplitCast relies on simple single-hop routing and leverages flexibilities by supporting splittable multicast so that a transfer can already be delivered to just a subset of receivers when the circuit capacity is insufficient. Our evaluation results show that SplitCast can reduce flow times significantly compared to state-of-the-art solutions.

Topics & Concepts

MulticastComputer scienceComputer networkProtocol Independent MulticastXcastPragmatic General MulticastSource-specific multicastDistributed computingDistance Vector Multicast Routing ProtocolControl reconfigurationIP multicastMulticast addressEmbedded systemInterconnection Networks and SystemsCloud Computing and Resource ManagementSoftware-Defined Networks and 5G
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