Delay analysis of mixed CNT bundles as global interconnect for nanotechnology nodes

IF 1 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Gurleen Dhillon, K. S. Sandha
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引用次数: 0

Abstract

Abstract This paper presents modeling of high current capability of mixed carbon nanotube (CNT) bundle interconnects depending upon the type of constituent CNT materials and their orientations. With different arrangements, one category of novel mixed CNT bundles formed by the combination of multi-walled/multi-shell CNT and double-shell CNT bundles (MDCB) are proposed and compared with the mixed CNT bundles (MSCB) formed with multi-shell CNT and single-walled CNT bundles. A time-domain analysis is performed for these structures to analyse the effect of delay and power dissipation. It has also been observed that MDCB structures give better performance (≈ 30%) than MSCB structures in terms of power-delay product at the global length of interconnect for nano-regime technology nodes. Also, MDCB structure formed by placing multi-walled CNTs along the periphery and double-walled CNTs in the centre of structure yields the best result against all proposed mixed CNT bundled structures and can be employed for future interconnect applications.
混合CNT束作为纳米技术节点全局互连的延迟分析
摘要本文根据组成碳纳米管材料的类型及其取向,对混合碳纳米管(CNT)束互连的高电流能力进行了建模。在不同的排列方式下,提出了一类由多壁/多壳CNT和双壳CNT束(MDCB)组合而成的新型混合CNT束,并与由多壁CNT和单壁CNT束形成的混合CNT捆(MSCB)进行了比较。对这些结构进行时域分析,以分析延迟和功耗的影响。还观察到,就纳米技术节点在互连的全局长度处的功率延迟乘积而言,MDCB结构比MSCB结构提供更好的性能(≈30%)。此外,通过沿外围放置多壁CNT和在结构中心放置双壁CNT形成的MDCB结构相对于所有提出的混合CNT束结构产生了最佳结果,并且可以用于未来的互连应用。
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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来源期刊
Journal of Electrical Engineering-elektrotechnicky Casopis
Journal of Electrical Engineering-elektrotechnicky Casopis 工程技术-工程:电子与电气
CiteScore
1.70
自引率
12.50%
发文量
40
审稿时长
6-12 weeks
期刊介绍: The joint publication of the Slovak University of Technology, Faculty of Electrical Engineering and Information Technology, and of the Slovak Academy of Sciences, Institute of Electrical Engineering, is a wide-scope journal published bimonthly and comprising. -Automation and Control- Computer Engineering- Electronics and Microelectronics- Electro-physics and Electromagnetism- Material Science- Measurement and Metrology- Power Engineering and Energy Conversion- Signal Processing and Telecommunications
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