探讨用于数据传输节点的BBRv2拥塞控制算法

2021 IEEE Workshop on Innovating the Network for Data-Intensive Science (INDIS) Pub Date : 2021-11-01 DOI:10.1109/indis54524.2021.00008

Brendan Tierney, E. Dart, E. Kissel

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引用次数: 4

摘要

众所周知，对于大科学中常见的高速高延迟流，基于损失的TCP拥塞控制算法是有问题的。2016年，谷歌发布了一种新的拥塞控制算法，名为“BBR”(瓶颈带宽和往返时间)，该算法使用基于模型的方法，该设计在BBRv2的alpha版本中得到了改进。在本文中，我们描述并执行了一组实验，以评估BBRv2在数据传输节点(dtn)上使用的适用性。实验既在生产R&E网络上运行，也在受控的测试平台环境中运行。我们对结果的分析表明，对于常见的大科学传输场景，BBRv2改进了BBRvl，并且在高速短队列网络环境中是一个很有前途的选择。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Exploring the BBRv2 Congestion Control Algorithm for use on Data Transfer Nodes

It is well known that loss-based TCP congestion control algorithms are problematic for high-speed high-latency flows that are common in Big Science. In 2016 Google released a new congestion control algorithm called ‘BBR’ (Bottleneck Bandwidth and Round-trip time) that uses a model-based approach, and the design has since been refined in an alpha release of BBRv2. In this paper, we describe and perform a set of experiments that assess the suitability of BBRv2 for use on Data Transfer Nodes (DTNs). The experiments were run on both production R&E networks as well as within a controlled testbed environment. Our analysis of the results show that BBRv2 improves upon BBRvl for common Big Science transfer scenarios and is a promising option in high-speed short-queue networking environments.

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2021 IEEE Workshop on Innovating the Network for Data-Intensive Science (INDIS)

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