Modeling and Power Evaluation of On-Chip Router Components in Spintronics

Pierre Schamberger, Zhonghai Lu, Xianyang Jiang, Meikang Qiu
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引用次数: 4

Abstract

On-chip routers are power hungry components. Besides exploiting current CMOS-based power-saving techniques, it is also desirable to investigate the power saving potential enabled by new technologies and devices. This paper investigates the potential of exploiting the emerging spin-electronics based MTJ (Magnetic Tunnel Junction) devices with application to on-chip router modules, in particular, buffers and crossbars. To this end, we build MTJ models, design circuits based on mixed MTJ-CMOS devices, and evaluate their switching power consumption, using their pure CMOS counterparts as the baseline. Our study shows that the new technology can significantly improve power efficiency for buffers but the gain for crossbars is less clear.
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自旋电子学中片上路由器元件的建模与功率评估
片上路由器是耗电的组件。除了利用当前基于cmos的节能技术外,还需要研究新技术和新器件所带来的节能潜力。本文研究了利用新兴的基于自旋电子学的MTJ(磁隧道结)器件应用于片上路由器模块的潜力,特别是缓冲器和交叉棒。为此,我们建立MTJ模型,设计基于混合MTJ-CMOS器件的电路,并以纯CMOS器件为基准,评估其开关功耗。我们的研究表明,新技术可以显著提高缓冲器的功率效率,但横梁的增益不太清楚。
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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