DESIGN AND EFFICIENCY ANALYSIS OF NANOCARBON INTERCONNECT STRUCTURES

Journal of Electrical Electronics and Informatics Pub Date : 2019-09-06 DOI:10.36548/jei.2019.1.002
Nirmal D Dr
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引用次数: 11

Abstract

With significant reduction in the size of ICs, there has been a massive increase in the operating speed. Due to this condition, the area available for interconnects within the transistor and between transistors in an IC is greatly reduced. Carbon wires pose high resistance and power dissipation in constrained space. It is necessary to opt efficient means to overcome this issue. The drawbacks of traditional metallic interconnects are overcome by nanocarbon interconnects. Considering factors such as shrinking dimensions, interconnect delay and power dissipation, we have considered four nanocarbon interconnect structures for analysis in this paper. The design and efficiency are analysed for Graphene Nanoribbon (GNR), Carbon Nanotube, Cu-Nanocarbon and All Carbon 3-D interconnects.
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纳米碳互连结构的设计与效率分析
随着集成电路尺寸的显著减小,操作速度也大幅提高。由于这种情况,可用于晶体管内部和集成电路中晶体管之间互连的面积大大减少。碳线在有限的空间内具有较高的电阻和功耗。有必要选择有效的方法来克服这一问题。纳米碳互连材料克服了传统金属互连材料的缺点。考虑到收缩尺寸、互连延迟和功耗等因素,我们选择了四种纳米碳互连结构进行分析。分析了石墨烯纳米带(GNR)、碳纳米管、cu -纳米碳和全碳三维互连的设计和效率。
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Journal of Electrical Electronics and Informatics
Journal of Electrical Electronics and Informatics
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24 weeks
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