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An In-Depth Analysis of the Slingshot Interconnect

Daniele De Sensi, Salvatore Di Girolamo, Kim H. McMahon, Duncan Roweth, Torsten Hoefler

2020IRIS Research product catalog (Sapienza University of Rome)112 citationsDOI

Abstract

The interconnect is one of the most critical components in large scale computing systems, and its impact on the performance of applications is going to increase with the system size. In this paper, we will describe Slingshot, an interconnection network for large scale computing systems. Slingshot is based on high-radix switches, which allow building exascale and hyper-scale datacenters networks with at most three switch-to-switch hops. Moreover, Slingshot provides efficient adaptive routing and congestion control algorithms, and highly tunable traffic classes. Slingshot uses an optimized Ethernet protocol, which allows it to be interoperable with standard Ethernet devices while providing high performance to HPC applications. We analyze the extent to which Slingshot provides these features, evaluating it on microbenchmarks and on several applications from the datacenter and AI worlds, as well as on HPC applications. We find that applications running on Slingshot are less affected by congestion compared to previous generation networks.

Topics & Concepts

Computer scienceInterconnectionEthernetInteroperabilityAdaptive routingRouting (electronic design automation)Computer architectureEmbedded systemDistributed computingComputer networkOperating systemRouting protocolDynamic Source RoutingInterconnection Networks and SystemsParallel Computing and Optimization TechniquesSoftware-Defined Networks and 5G
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