GFS: An Efficient Implementation of Fair Scheduling for Mult-Gigabit Packet Networks

Georgios Kornaros, T. Orphanoudakis, I. Papaefstathiou
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引用次数: 5

Abstract

In order to address the challenge of providing quality of service guarantees in today's network processing systems, the use of efficient scheduling algorithms is required. The efficiency of a scheduler is determined by several factors including its fairness, capability to operate at high speeds, as well as the resources required for its implementation. We present an architecture to support fair scheduling (gigabit FS) considering variable length packets (i. e. for packet forwarding/switching networks) over gigabit links. This high speed scheduler is designed to manage 32 K flows based on an algorithm that yields efficient implementation in hardware by avoiding the complexity of computing the system virtual time function that many packet fair queueing (PFQ) algorithms have proposed. Further, we demonstrate the critical factors in designing an effective scheduling engine at gigabit rates and we present several enhancements together with their associated cost.
GFS:多千兆分组网络公平调度的有效实现
为了解决在当今网络处理系统中提供服务质量保证的挑战,需要使用高效的调度算法。调度器的效率由几个因素决定,包括它的公平性、高速运行的能力以及实现所需的资源。我们提出了一个架构,以支持公平调度(千兆FS)考虑可变长度的数据包(即数据包转发/交换网络)在千兆链路。该高速调度器设计用于管理32k流,基于一种算法,该算法通过避免许多包公平排队(PFQ)算法所提出的计算系统虚拟时间函数的复杂性,从而在硬件上实现高效。此外,我们还演示了在千兆速率下设计有效调度引擎的关键因素,并介绍了几种增强功能及其相关成本。
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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