亚波长光刻技术对晶体管建模的影响

Aswin Sreedhar, S. Kundu
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引用次数: 11

摘要

随着超大规模集成电路技术超越65纳米和45纳米工艺,栅极长度的变化对CMOS晶体管的漏损和性能有直接影响。由于亚波长光刻技术,晶体管的形状往往与理想的矩形不同。在硅中,晶体管的有效沟道长度随其宽度而变化。这是一个建模问题。ON电流和OFF电流的平均有效通道长度是不同的,这使得单个Leff很难(如果不是不可能的话)准确地表示两者。在本文中,我们报告了一种精确的后光刻非矩形晶体管建模方法。我们进一步研究了光刻过程中焦距和剂量变化对晶体管参数的影响。所得到的晶体管模型在平面布局和器件表征的光刻模拟的连续步骤中用于标准电池表征。结果表明,与主要针对导通电流进行调整的标称模型相比,新模型可以将泄漏电流的估计精度提高40%以上。
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On modeling impact of sub-wavelength lithography on transistors
As the VLSI technology marches beyond 65 and 45 nm process technologies, variation in gate length has a direct impact on leakage and performance of CMOS transistors. Due to sub-wavelength lithography, the shape of the transistor often differs from idealized rectangles. In silicon, the effective channel length of a transistor varies across its width. This is a modeling problem. The average effective channel length is different for ON current and OFF currents, making it difficult, if not impossible for a single Leff to accurately represent both. In this paper, we report an accurate post-litho non-rectangular transistor modeling methodology. We further studied the impact of focus and dose variations in lithographic process on transistor parameters. The resulting transistor models were applied for standard cell characterization in successive steps of lithographic simulation of layout and device characterization. Results show that the new models can improve the accuracy of estimation of leakage current by 40% or more over a nominal model that is primarily tuned for ON current.
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