Junhao Gu, Yingying Shang, Peng Xu, Juan Wei, Song Sun, Qingchen Cao, Jiangliu Shi, Xijin Zhao, Chun Zhang
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引用次数: 0
摘要
光刻后从 SEM 晶圆图像中提取的轮廓数据被广泛用于临界尺寸(CD)和边缘位置误差(EPE)测量。在分析光刻过程和校准光刻模型之前,快速准确地获取轮廓数据非常重要。没有准确的轮廓数据,就很难实现完整的 CDU、PVband 分析和反向光刻技术。随着技术节点的不断缩小,对精确轮廓提取的要求也越来越高。然而,从带有缺陷和噪声的 SEM 图像中快速、准确地提取轮廓是一项挑战。我们将 U-Net 应用于 SEM 图像的语义分割。轮廓提取和评估可以在图像分割后更好地完成。我们的实验结果表明,各种类型的光刻图案的轮廓数据都可以通过有噪声的 SEM 图像获得。
SEM image contour extraction with deep learning method
The contour data extracted from SEM wafer images after the lithography are widely used in the critical dimension (CD), edge placement error (EPE) measurement. It is important to obtain the contours fast and accurate before the analysis of lithographic process and calibration of the lithographic models. Without the accurate contour data, the complete CDU, PVband analysis and inverse lithography technique are hard to realize. With the continuous shrink of the technology nodes, the demand for the accurate contour extraction increases. However, fast and accurate contour extraction from SEM images with defects and noises is challenging. We apply the U-Net to the semantic segmentation of SEM images. The contour extraction and evaluation can be done better after the image segmentation. Our experimental results show that satisfactory contour data of various types of lithographic patterns can be obtained with noisy SEM images.
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