Supporting Multi-dimensional and Arbitrary Numbers of Ranks for Software Packet Scheduling

2020 IEEE/ACM 28th International Symposium on Quality of Service (IWQoS) Pub Date : 2020-06-01 DOI:10.1109/IWQoS49365.2020.9212844

Jiaqi Zheng, Yanan Jiang, Bingchuan Tian, Huaping Zhou, Chen Tian, Guihai Chen, Wanchun Dou

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引用次数: 1

Abstract

Compared with hardware implementation, the software packet scheduler uses the packet queuing data structure and a ranking function according to different dimensions to flexibly determine the packet dequeue order, which can significantly shorten the renewal cycles and increase the function deployment flexibility. The key data structure in prior work either bounds the number of rank or suffers from high computation overhead. In addition, they only support a single dimension and do not scale well. In this paper, we present Proteus, a software packet scheduling system that supports multi-dimensional and arbitrary numbers of ranks. We design a k-dimension heap data structure and develop “push” and “pop” algorithms to perform “enqueue” and “dequeue” operations. Furthermore, we implement a prototype of Proteus in software switch. Extensive experiments on BESS and numerical simulations show that Proteus can decrease the computation overhead, save the storage space and run much faster than state of the art.

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支持多维、任意数量级的软件分组调度

与硬件实现相比，软件数据包调度器利用数据包排队数据结构和不同维数的排序功能，灵活确定数据包的脱队列顺序，大大缩短了更新周期，增加了功能部署的灵活性。在之前的工作中，关键数据结构要么限制了排名的数量，要么承受了很高的计算开销。此外，它们只支持单一维度，不能很好地扩展。本文提出了一种支持多维任意秩数的软件包调度系统Proteus。我们设计了一个k维堆数据结构，并开发了“push”和“pop”算法来执行“enqueue”和“dequeue”操作。在此基础上，实现了Proteus在软件交换机中的原型。在BESS上进行的大量实验和数值模拟表明，Proteus可以减少计算开销，节省存储空间，并且比目前的技术运行速度快得多。

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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来源期刊

2020 IEEE/ACM 28th International Symposium on Quality of Service (IWQoS)

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