为DiffServ类调度动态带宽分配

Proceedings. 12th International Conference on Computer Communications and Networks (IEEE Cat. No.03EX712) Pub Date : 2003-10-20 DOI:10.1109/ICCCN.2003.1284188

Mei Yang, E. Lu, S. Zheng

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引用次数: 11

摘要

新兴Internet应用的多样化业务需求加快了对灵活、可扩展的IP服务质量(QoS)方案的需求。由于其简单性和可伸缩性，DiffServ有望在Internet上得到广泛部署。虽然支持输出排队(OQ)交换机的DiffServ调度算法已经得到了广泛的研究，但用于输入排队(IQ)交换机的DiffServ调度算法却很少。本文提出了IQ交换机动态DiffServ调度(DDS)算法，为DiffServ类提供动态带宽分配。DDS的基本思想是在预留带宽下，根据EF和AF的最小服务速率调度流量，在剩余带宽下，公平调度AF和BE流量。我们评估了DDS在突发流量到达下的性能，并将其与PQWRR进行了比较，PQWRR是一种现有的适合于支持差分服务的OQ交换机调度算法。仿真结果表明，DDS为EF和AF业务提供了最小的带宽保证，为BE业务提供了公平的带宽分配。DDS在高负载下，EF流量的延迟和抖动性能接近PQWRR, AF流量的延迟性能优于PQWRR。利用基于比较器树的仲裁组件，可以在硬件上高速实现DDS。

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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Scheduling with dynamic bandwidth allocation for DiffServ classes

The diverse service requirements of emerging Internet applications faster the need for flexible and scalable IP quality-of-service (QoS) schemes. Due to its simplicity and scalability, DiffServ is expected to be widely deployed across the Internet. Though DiffServ supporting scheduling algorithms for output-queueing (OQ) switches have been widely studied, there are few DiffServ scheduling algorithms for input-queueing (IQ) switches. In this paper, we propose the dynamic DiffServ scheduling (DDS) algorithm for IQ switches to provide dynamic bandwidth allocation for DiffServ classes. The basic idea of DDS is to schedule EF and AF traffic according to their minimum service rates with the reserved bandwidth and schedule AF and BE traffic fairly with the excess bandwidth. We evaluate the performance of DDS under bursty traffic arrivals and compare it with PQWRR, an existing scheduling algorithm suitable for supporting DiffServ for OQ switches. Simulations results show that DDS provides minimum bandwidth guarantees for EF and AF traffic and fair bandwidth allocation for BE traffic. DDS also achieves the delay and jitter performance for EF traffic close to that of PQWRR and the delay performance for AF traffic better than that of PQWRR at high loads. Using comparator-tree based arbitration components, it is feasible to implement DDS in hardware at high speed.

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Proceedings. 12th International Conference on Computer Communications and Networks (IEEE Cat. No.03EX712)

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