全光子网络中的最小拒绝调度

2006 3rd International Conference on Broadband Communications, Networks and Systems Pub Date : 2006-10-01 DOI:10.1109/BROADNETS.2006.4374357

N. Saberi, M. Coates

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引用次数: 10

摘要

全光子网络中的内部交换机不执行数据转换到电子域，从而消除了潜在的容量瓶颈，但无法执行有效的光缓冲引入了网络调度挑战。本文研究了全光子星形拓扑网络中以拒绝需求最小化为目标的定长帧调度问题。我们将任务表述为一个优化问题，并描述其复杂性。我们描述了最小化总拒绝的最小拒绝算法(MRA)，并证明了公平匹配算法(FMA)最小化任何连接的最大拒绝百分比。通过OPNET仿真分析了系统的抑制性能和延迟性能。

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Minimum Rejection Scheduling in All-Photonic Networks

Internal switches in all-photonic networks do not perform data conversion into the electronic domain, thereby eliminating a potential capacity bottleneck, but the inability to perform efficient optical buffering introduces network scheduling challenges. In this paper we focus on the problem of scheduling fixed-length frames in all-photonic star-topology networks with the goal of minimizing rejected demand. We formulate the task as an optimization problem and characterize its complexity. We describe the minimum rejection algorithm (MRA), which minimizes total rejection, and demonstrate that the fair matching algorithm (FMA) minimizes the maximum percentage rejection of any connection. We analyze through OPNET simulation the rejection and delay performance.

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2006 3rd International Conference on Broadband Communications, Networks and Systems

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