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引用次数: 1
摘要
由于大基数路由器的特性,蜻蜓拓扑可以实现低直径、高性能/成本比。然而,在部署RDMA (Remote Direct Memory Access)的蜻蜓网络中,现有的分组级路由算法大多基于队列长度信息,既不能很好地实现负载均衡,也不能满足有序的要求。为了解决上述问题,我们首先分析了支持rdma的蜻蜓网络中流级源路由的缺点。然后,提出了一种基于路由器历史信息估计流量分布和链路负载的流级重路由方案。仿真结果表明,该方案在平均流完井时间(AFCT)和饱和吞吐量方面都比现有算法有显著的性能提升。特别是在对抗流量模式下,我们的方案可以在避免混乱的同时,将流级UGAL的AFCT大大降低25%,将饱和吞吐量提高13%。
Flow-Level Rerouting in RDMA-Enabled Dragonfly Networks
Due to the characteristic of large-radix routers, the Dragonfly topology can achieve low diameter, high performance/cost ratio. However, in the Dragonfly networks deployed with Remote Direct Memory Access (RDMA), existing packet-level routing algorithms which are mostly based on queue length information, are neither good enough to achieve load balancing nor meet the requirement of in order. To tackle the above issues, we first analyze the drawbacks of flow-level source routing in RDMA-enabled Dragonfly networks. Then, a flow-level rerouting scheme that can estimate traffic distribution and link load based on the routers' history information is proposed. Finally, the simulation results show that our scheme can obtain significant performance gains over existing algorithms in both average flow completion time (AFCT) and saturation throughput. In particular, under the adversarial traffic pattern, our scheme can greatly reduce the AFCT of flow-level UGAL by 25% and improve the saturation throughput by 13% while avoiding disorder.
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