Hybrid Buffer Structured Optical Packet Switch with the Optimum Numbers of Tunable Wavelength Converters and Internal Wavelengths

2007 9th International Conference on Transparent Optical Networks Pub Date : 2007-07-01 DOI:10.1109/ICTON.2007.4296308

Huhnkuk Lim, Jubeom Kim, C. Oh

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引用次数: 1

Abstract

In the optical packet switch (OPS) with the hybrid buffer for contention resolution of asynchronous and variable length packets, the optimum numbers of tunable wavelength converters (TWCs) and internal wavelengths is, for the first time, presented for reducing switch cost. The hybrid buffer was addressed, to reduce packet loss further as one of the alternative buffer structures for contention resolution of asynchronous and variable length packets, which consists of the FDL buffer and the electronic buffer. To optimize TWCs and internal wavelengths related to design cost of the OPS with the hybrid buffer, we proposed a scheduling algorithm for the hybrid buffer with the limited TWCs and internal wavelengths. For the fully shared TWC structure, the optimum numbers of TWCs and internal wavelengths to guarantee minimum packet loss are evaluated to prevent resource waste under the hybrid buffer. Under a given load, TWCs and internal wavelengths could be significantly reduced, guaranteeing the same packet loss as the performance of the hybrid buffer structured OPS with more number of TWCs and internal wavelengths.

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具有可调谐波长转换器和内部波长最优数量的混合缓冲结构光分组交换机

在采用混合缓冲解决异步和可变长度分组争用的光分组交换机(OPS)中，首次提出了可调波长转换器(twc)和内部波长的最佳数量，以降低交换成本。为了进一步减少包的丢失，本文提出了一种由FDL缓冲器和电子缓冲器组成的混合缓冲器，作为异步变长包争用解决的备选缓冲器结构之一。为了优化与混合缓冲OPS设计成本相关的twc和内波长，提出了一种具有有限twc和内波长的混合缓冲调度算法。对于完全共享的TWC结构，评估了保证丢包最小的TWC的最佳数量和内部波长，以防止混合缓冲下的资源浪费。在给定负载下，twc和内部波长可以显著减少，保证与具有更多twc和内部波长的混合缓冲结构OPS性能相同的丢包性能。

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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2007 9th International Conference on Transparent Optical Networks

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