Dr. Siyuan Wei Profile

Dr. Siyuan Wei

SPIE Involvement:

Author

Publications (2)

SPIE Journal Paper | 21 August 2023 Open Access

Unsupervised neural network-based image restoration framework for pattern fidelity improvement and robust metrology

Zijian Du, Lingling Pu, Paul Wei, Rui Yuan, Jeeeon Kim, Jiaoying Tan

JM3, Vol. 22, Issue 03, 034201, (August 2023) https://doi.org/10.1117/12.10.1117/1.JMM.22.3.034201

KEYWORDS: Image restoration, Metrology, Scanning electron microscopy, Image processing, Image quality, Neural networks, Education and training, Tunable filters, Machine learning, Line edge roughness

Read Abstract +

BackgroundScanning electron microscope (SEM) images acquired by E-beam tools for inspection and metrology applications are usually degraded by blurring and additive noises. Blurring sources include the intrinsic point spread function of optics, lens aberration, and potential motion blur caused by the wafer stage movements during the image acquisition process. Noise sources include shot noise, quantization noise, and electronic read-out noise. Image degradation caused by blurring and noise usually leads to noisy, inaccurate metrology results. For low-dosage metrology applications, metrology algorithms often fail to obtain successful measurements due to elevated levels of blurring and noise. Image restoration and enhancement are necessary as preprocessing steps to obtain meaningful metrology results. Initial success was obtained by applying neural network-based framework to drastically improve image quality and metrology precision as is demonstrated in the previous work.AimWe aim to provide more details on the neural network model architecture, model regularization, and training dynamics to better understand the model’s behavior. We also analyze the effect of image restoration on key metrology performances such as line edge roughness and mean critical dimension of the patterns.ApproachNon-machine learning-based image quality enhancement methods fail to restore low-quality SEM images to a satisfactory degree. More recent convolutional neural networks and vision transformer-based, supervised deep learning models have achieved superior performance in various low-level image processing and computer vision tasks. Nevertheless, they require a huge amount of training data that contain high-quality ground truth images. Unfortunately, high-quality ground truth images for low-dosage SEM images do not exist. Instead, we use self-supervised U-Net combined with a fully connected network (FCN) to recover low-dosage images without the need for ground truth training images. The methodology can be applied to various one- and two-dimensional patterns with different scales, shapes, spatial density, and image intensity statistics. We use image quality metrics and loss function to guide model architecture optimization and study how regularization strength affects the restoration process. These studies provide a better understanding of how the model learns to restore images and how parameters and hyperparameters affect results.ResultsIt is demonstrated that image quality metrics could be successfully used to evaluate self-supervised image restoration process and determine stopping criteria. The restored images show significantly improved image quality and metrology performance. Together, these pave the road to a systematic and automatic implementation of this methodology in real metrology applications.ConclusionsA self-supervised U-Net–based model combined with FCN proved itself as a powerful tool to restore highly blurry and noisy low-dosage SEM images. It can be used to improve image quality, suppress metrology noise, and provide more robust measurements. It would become a crucial and necessary preprocessing step for metrology tasks as the E-beam dosage decreases and image quality worsens.

DOWNLOAD PAPER

Proceedings Article | 26 May 2022 Presentation + Paper

Low dosage SEM image processing for metrology applications

Zijian Du, Lingling Pu, Jiaoying Tan, Paul Wei, Jeeeon Kim

Proceedings Volume 12053, 1205309 (2022) https://doi.org/10.1117/12.2614281

KEYWORDS: Convolutional neural networks, Computer vision technology, Machine learning, Image restoration, Image quality, Metrology, Scanning electron microscopy, Image processing, Image enhancement, Denoising, Neural networks, Data modeling, Time metrology

Read Abstract +

View contact details

UPDATE YOUR PROFILE

Is this your profile? Update it now.

Sign into your SPIE.org account

Don’t have a profile and want one?

Create an account on SPIE.org

Keywords/Phrases

Search In:

Publication Years