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Paper detail

Unleashing In-network Computing on Scientific Workloads

Many recent efforts have shown that in-network computing can benefit various datacenter applications. In this paper, we explore a relatively less-explored domain which we argue can benefit from in-network computing: scientific workloads in high-performance computing. By analyzing canonical examples of HPC applications, we observe unique opportunities and challenges for exploiting in-network computing to accelerate scientific workloads. In particular, we find that the dynamic and demanding nature of scientific workloads is the major obstacle to the adoption of in-network approaches which are mostly open-loop and lack runtime feedback. In this paper, we present NSinC (Network-accelerated ScIeNtific Computing), an architecture for fully unleashing the potential benefits of in-network computing for scientific workloads by providing closed-loop runtime feedback to in-network acceleration services. We outline key challenges in realizing this vision and a preliminary design to enable acceleration for scientific applications.

preprint2020arXivOpen access
Daehyeok KimAnkush JainZaoxing LiuGeorge AmvrosiadisDamian HazenBradley SettlemyerVyas Sekar
Networking and Internet ArchitectureDistributed, Parallel, and Cluster Computing
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Daehyeok KimAnkush JainZaoxing LiuGeorge AmvrosiadisDamian HazenBradley SettlemyerVyas Sekar

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