A hierarchical model-based method for wafer level virtual metrology under process information deficiency

IF 1.3 4区 工程技术 Q4 ENGINEERING, INDUSTRIAL Quality Engineering Pub Date : 2023-09-13 DOI:10.1080/08982112.2023.2252891
Yu-Jun Liu, Dong Ni, Xiong Shao, Dan-Li Gong, Jin-Jin Li
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Abstract

Online inspection is one of the most critical processes of quality control in semiconductor manufacturing. The physical inspection methods for wafers are time-consuming and unable to achieve wafer level metrology. In order to improve production efficiency and expand inspection coverage, virtual metrology (VM) methods have recently received widespread attention; they utilize process parameters to estimate wafer metrology results. However, due to process drift and other reasons, the process information contained in real-time signal data (RTS data) used for VM modeling in industrial production is insufficient. This work proposed a hierarchical modeling method for machine learning-based virtual wafer metrology, leveraging RTS and post-process quality characteristics. The hierarchical model consists of an multiway principle analysis (MPCA) sub-model for RTS feature extracting and two separate long short-term memory (LSTM) networks for wafer-to-wafer dynamics in RTS and quality characteristics, respectively. A case study on the thickness VM of chemical vapor deposition thin film is conducted, and the proposed method has achieved better results than other methods in comparison.
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工艺信息缺乏下基于层次模型的晶圆级虚拟测量方法
在线检测是半导体制造质量控制的关键环节之一。晶圆的物理检测方法耗时长,无法实现晶圆级计量。为了提高生产效率和扩大检测范围,虚拟计量(VM)方法近年来受到了广泛的关注;他们利用工艺参数来估计晶圆测量结果。然而,由于过程漂移等原因,工业生产中用于虚拟机建模的实时信号数据(RTS数据)中所包含的过程信息不足。这项工作提出了一种基于机器学习的虚拟晶圆计量的分层建模方法,利用RTS和后处理质量特征。该分层模型由用于RTS特征提取的多路原理分析(MPCA)子模型和两个单独的用于RTS晶圆间动态和质量特征的长短期记忆(LSTM)网络组成。以化学气相沉积薄膜的厚度VM为例进行了研究,并与其他方法进行了比较,取得了较好的效果。
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来源期刊
Quality Engineering
Quality Engineering ENGINEERING, INDUSTRIAL-STATISTICS & PROBABILITY
CiteScore
3.90
自引率
10.00%
发文量
52
审稿时长
>12 weeks
期刊介绍: Quality Engineering aims to promote a rich exchange among the quality engineering community by publishing papers that describe new engineering methods ready for immediate industrial application or examples of techniques uniquely employed. You are invited to submit manuscripts and application experiences that explore: Experimental engineering design and analysis Measurement system analysis in engineering Engineering process modelling Product and process optimization in engineering Quality control and process monitoring in engineering Engineering regression Reliability in engineering Response surface methodology in engineering Robust engineering parameter design Six Sigma method enhancement in engineering Statistical engineering Engineering test and evaluation techniques.
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