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Delay and Energy Efficient Design of an On-Chip Bus with Repeaters Using a New Spatial and Temporal Encoding Technique

基于一种新的时空编码技术的片上总线的低延迟低能耗设计(英文)
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摘要 On-chip global buses in deep sub-micron designs consume significant amounts of energy and have large propagation delays. Thus, minimizing energy dissipation and propagation delay is an important design objective. In this paper, we propose a new spatial and temporal encoding approach for generic on-chip global buses with repeaters that enables higher performance while reducing peak energy and average energy. The proposed encoding approach exploits the benefits of a temporal encoding circuit and spatial bus-invert coding techniques to simultaneously eliminate opposite transitions on adjacent wires and reduce the number of self-transitions and coupling-transitions. In the design process of applying encoding techniques for reduced bus delay and energy, we present a repeater insertion design methodology to determine the repeater size and inter-repeater bus length, which minimizes the total bus energy dissipation while satisfying target delay and slew-rate constraints. This methodology is employed to obtain optimal energy versus delay trade-offs under slew-rate constraints for various encoding techniques. 在深亚微米设计中,降低能耗和传播延迟是片上全局总线所面对的两个最主要设计目标.本文提出了一种用于片上全局总线的时空编码方案,它既提高了性能又降低了峰值能耗和平均能耗.该编码方案利用空间总线倒相编码和时间编码电路技术的优点,在消除相邻连线上反相翻转的同时,减少了自翻转数和耦合翻转数.在应用该总线编码技术降低总线延时和能耗的设计中,给出了一种总线上插入中继驱动器的设计方法,以确定它们合适的尺寸和插入位置,使得在满足目标延时和翻转斜率要求的同时总线总的能耗最小.该方法可用来为各种编码技术获得翻转斜率约束下的总线能耗与延时的优化折中.
作者 张庆利 王进祥 喻明艳 叶以正
机构地区 哈尔滨工业大学微电子中心
出处 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2008年第4期724-732,共9页 半导体学报(英文版)
关键词 on-chip buses DELAY energy ENCODING REPEATERS 片上总线 延时 能量有效 编码 中继驱动器
分类号 TN911.2 [电子电信—通信与信息系统]
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参考文献16

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二级参考文献16

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共引文献1

Journal of Semiconductors
2008年 第4期

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