Contrasting wavelength-routed optical NoC topologies for power-efficient 3d-stacked multicore processors using physical-layer analysis

L. Ramini, P. Grani, S. Bartolini, D. Bertozzi
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引用次数: 56

Abstract

Optical networks-on-chip (ONoCs) are currently still in the concept stage, and would benefit from explorative studies capable of bridging the gap between abstract analysis frameworks and the constraints and challenges posed by the physical layer. This paper aims to go beyond the traditional comparison of wavelength-routed ONoC topologies based only on their abstract properties, and for the first time assesses their physical implementation efficiency in an homogeneous experimental setting of practical relevance. As a result, the paper can demonstrate the significant and different deviation of topology layouts from their logic schemes under the effect of placement constraints on the target system. This becomes then the preliminary step for the accurate characterization of technology-specific metrics such as the insertion loss critical path, and to derive the ultimate impact on power efficiency and feasibility of each design.
使用物理层分析对比节能3d堆叠多核处理器的波长路由光学NoC拓扑
光片上网络(ONoCs)目前仍处于概念阶段,并且将受益于能够弥合抽象分析框架与物理层所带来的限制和挑战之间差距的探索性研究。本文旨在超越传统的仅基于其抽象特性的波长路由ONoC拓扑的比较,并首次在具有实际意义的同质实验环境中评估其物理实现效率。结果表明,在目标系统放置约束的影响下,拓扑布局与其逻辑方案存在显著的不同偏差。然后,这成为准确表征特定技术指标(如插入损耗关键路径)的初步步骤,并得出对每种设计的功率效率和可行性的最终影响。
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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