20nm块体mosfet的可变感知紧凑模型策略

2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD) Pub Date : 2014-10-23 DOI:10.1109/SISPAD.2014.6931621

Xingsheng Wang, D. Reid, Liping Wang, A. Burenkov, C. Millar, B. Cheng, André Lange, J. Lorenz, E. Baer, A. Asenov

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引用次数: 4

摘要

本文提出了一种考虑临界尺寸、远程工艺变化和局部统计变化的20纳米体平面工艺的可变感知紧凑建模策略。使用实验设计方法仔细地进行了L和W的广泛组合的过程和设备模拟以及统计模拟。变异性感知的紧凑模型策略具有综合提取标称模型和两组用于提取长期过程变化和统计变异性的选定参数的特点。统一的变异性紧凑建模方法为变异性感知技术电路协同优化提供了仿真框架。

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Variability-aware compact model strategy for 20-nm bulk MOSFETs

In this paper a variability-aware compact modeling strategy is presented for 20-nm bulk planar technology, taking into account the critical dimension long-range process variation and local statistical variability. Process and device simulations and statistical simulations for a wide range of combinations of L and W are carefully carried out using a design of experiments approach. The variability aware compact model strategy features a comprehensively extracted nominal model and two groups of selected parameters for extractions of the long-range process variation and statistical variability. The unified variability compact modeling method can provide a simulation frame for variability aware technology circuit co-optimization.

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2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)

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