光学伪榕树分组交换系统的QoS并行增量调度

Shih-Hsuan Lin, M. Yuang
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摘要

在本文中,我们提出了一种QoS并行增量调度(QPIS)算法,用于先前提出的10gb /s QoS光分组交换系统的变体。该变型系统由光学伪榕树空间开关、少量基于光纤延迟线(FDL)的光缓冲器和四波混频(FWM)波长转换器组成。QPIS最小化高优先级数据包的丢失概率,同时最大化系统吞吐量并满足两个约束(无交换机争用和无缓冲区争用)。最值得注意的是,我们证明了QPIS是增量的,即每个时隙内计算的数据包集是单调不减少的,然后推导了计算复杂度。从将QPIS算法与其他两种顺序算法进行比较的仿真结果中,我们表明QPIS在丢包概率、QoS差异化和计算复杂性方面优于这些算法。
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QoS parallel incremental scheduling for optical pseudo-Banyan packet switching system
In this paper, we propose a QoS parallel incremental scheduling (QPIS) algorithm for a variant of an earlier-proposed 10-Gb/s QoS optical packet switching system. The variant system consists of optical pseudo-Banyan space switches, a handful of fiber-delay-line (FDL)-based optical buffers, and four-wave-mixing (FWM) wavelength converters. The QPIS minimizes the loss probability for high-priority packets while maximizing system throughput and satisfying two constraints (switch-contention free, and buffer-contention free). Most notably, we prove that QPIS is incremental, i.e., the computed packet sets within each time slot are monotonically non-decreasing, and then derive the computational complexity. From simulation results that pit the QPIS algorithm against two other sequential algorithms, we show that QPIS outperforms these algorithms on packet loss probability, QoS differentiation, and computational complexity.
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