Paper
26 March 2019 Denoising line edge roughness measurement using hidden Markov models
Author Affiliations +
Abstract
In this paper we propose the implementation of a machine learning technique based on Hidden Markov Models (HMMs) to provide denoising of line edges and unbiased LER measurement. HMMs are widely used with great success in speech recognition and image processing for denoising and filtering noise. Here HMMs are used for similar purposes, working with the observed (noisy) edge data, acquired through SEM imaging and an edge detection algorithm in an effort to retrieve a parent edge signal that is statistically close to the real one.

The developed HMM method was trained with the assistance of synthesized rough edges, on a wide spectrum of predefined and controlled noise levels and roughness characteristics. This ensures the method adapts on a variety of LER parameters and noise levels. The edges were then used to validate its effectiveness in a broad range of line patterns. Our results so far specify the characteristics of the training data set which are required to make the method effective in the unbiased LER measurement.
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George Papavieros, Ioannis Kontoyiannis, Vassilios Constantoudis, and Evangelos Gogolides "Denoising line edge roughness measurement using hidden Markov models", Proc. SPIE 10959, Metrology, Inspection, and Process Control for Microlithography XXXIII, 109592Z (26 March 2019); https://doi.org/10.1117/12.2523422
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KEYWORDS
Data modeling

Line edge roughness

Denoising

Matrices

Edge detection

Scanning electron microscopy

Image processing

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