Neural network modeling of reactive ion etching using principal component analysis of optical emission spectroscopy data

S.J. Hong, G. May
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引用次数: 9

Abstract

In this paper, neural networks trained by the error back-propagation algorithm are used to build models of etch rate, uniformity, selectivity and anisotropy as a function of optical emission spectroscopy (OES) data in a reactive ion etching process. The material etched is benzocyclobutene (BCB), a low-k dielectric polymer, which is etched in an SF/sub 6/ and O/sub 2/ plasma in a parallel plate system. Neural network training data are obtained from a multi-way principal component analysis (MPCA) of the OES data. These data are acquired from a 2/sup 4/ factorial experiment designed to characterize etch process variation with controllable input factors consisting of the two gas flows, RF power and chamber pressure. Evaluation of the trained neural networks is performed in terms of root mean square (RMS) error, and less than 3% prediction errors are achieved.
基于发射光谱数据主成分分析的反应性离子蚀刻神经网络建模
本文利用误差反向传播算法训练的神经网络,建立了反应离子蚀刻过程中蚀刻速率、均匀性、选择性和各向异性随发射光谱(OES)数据的函数模型。刻蚀的材料是低k介电聚合物苯并环丁烯(BCB),该材料是在平行板系统中的SF/sub 6/和O/sub 2/等离子体中刻蚀的。神经网络训练数据由多向主成分分析(MPCA)得到。这些数据是从一个2/sup / 4/析因实验中获得的,该实验旨在表征蚀刻过程的变化,该过程具有可控的输入因素,包括两种气体流量、射频功率和腔室压力。根据均方根误差(RMS)对训练的神经网络进行评估,实现了小于3%的预测误差。
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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