Jiang Shao, Xinyi Li, Minglin Li, Sen Liu, Yang Xu
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引用次数: 0
摘要
RoCEv2 (RDMA over Converged Ethernet version 2)通常用于支持PFC的无损网络中,以获得高性能,但PFC可能会导致副作用,例如线路头阻塞和拥塞传播。在有耗网络中优化丢包恢复机制可以提高RDMA网络的性能,但丢包会增加短流的FCT,浪费网络资源。本文提出了半无损网络的新概念,以利用无损网络和有损网络的优点,减少它们的负面影响。我们提出的解决方案,选择性PFC (S-PFC),实现了二维的半无损网络。首先,S-PFC保证短流不丢包,同时及时丢弃长流。其次,S-PFC保证在网络边缘不丢包,避免过早丢包和不必要的资源浪费。典型数据中心网络场景和大规模仿真表明,S-PFC能够有效适应不同的流量需求。
S-PFC: Enabling Semi-Lossless RDMA Network with Selective Response to PFC
RoCEv2 (RDMA over Converged Ethernet version 2) is typically used in a PFC-enabled lossless network for high performance, but PFC can cause side effects, such as head-of-line (HoL) blocking and congestion spreading. Optimizing packet loss recovery mechanisms in lossy networks can enhance RDMA network performance, but packet loss can increase FCT of short flows and waste network resources. This paper proposes a novel concept of semi-lossless networks to exploit the advantages of lossless and lossy networks, and reduce their negative effects. Our proposed solution, Selective PFC (S-PFC), implements semi-lossless networks in two dimensions. First, S-PFC ensures no packet loss for short flows while timely dropping long flows. Second, S-PFC guarantees no packet loss at the network edge to prevent premature packet loss and unnecessary resource waste. Typical data center network scenarios and large-scale simulations show that S-PFC can accommodate different traffic demands effectively.
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