32纳米节点技术的互连设计

2011 6th International Conference on Design & Technology of Integrated Systems in Nanoscale Era (DTIS) Pub Date : 2011-04-06 DOI:10.1109/DTIS.2011.5941410

D. Deschacht

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引用次数: 0

摘要

当高速集成电路技术从一个节点缩小到另一个节点时，ITRS建议将尺寸缩小约2的平方，并建议将性能提高17%。但是在有源器件上获得的增益受到互连传播延迟和后端串扰水平增加的影响。这个问题特别涉及到中间金属级的互连。我们的研究重点是减小互连空间和宽度对信号传输延迟的影响。为了避免新的工业制造对成本和可靠性的限制，本研究在不改变CMOS 45纳米集成电路BEOL中使用的工艺和材料的情况下进行。我们将根据CMOS 32纳米BEOL的速度和串扰水平要求，研究50纳米宽度的互连，线间距为50纳米。当难以满足所有要求时，应放宽互连密度限制以扩大应用范围。

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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Interconnect design for a 32 nm node technology

When high speed integrated circuits technology scales down from one node to the other, ITRS suggests a reduction in sizes by a factor of around square of 2, and recommends 17% of improvement on performance. But the obtained gain on active devices is foiled by an increase of interconnect propagation delays and critical crosstalk levels in the Back End of Line (BEOL). This issue especially concerns interconnect of the intermediate metal level. Our works are focused on the impact on signal transmission delay along interconnects of decreasing the space and width. To avoid new industrial manufacturing constraints on cost and reliability, this study is performed without modifying process and materials used in the BEOL of CMOS 45 nm IC. We will study interconnects of 50 nm width, with a 50 nm space between lines in accordance with speed and crosstalk levels requirements of CMOS 32 nm BEOL. When it becomes hard to meet all requirements, it is shown that interconnect density constraints should be relaxed to enlarge the scope of application.

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来源期刊

2011 6th International Conference on Design & Technology of Integrated Systems in Nanoscale Era (DTIS)

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