Effective multi-objective inverse lithography technology at full-field and full-chip levels with a hybrid dynamic priority algorithm

Wei, Pengzhi; Li, Yanqiu; Li, Zhaoxuan; Yuan, Miao; Li, Z.C.; Wang, Yuming; Li, Ang; Qiao, Lingling; He, Yang

doi:10.1364/oe.482130

Opt. Express

2023

DOI: 10.1364/oe.482130

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Effective multi-objective inverse lithography technology at full-field and full-chip levels with a hybrid dynamic priority algorithm

Pengzhi Wei¹,

Yanqiu Li²,

Zhaoxuan Li³

et al.

Abstract: Inverse lithography technology (ILT), such as source mask optimization (SMO), is used to improve lithography performance. Usually, a single objective cost function is selected in ILT, and an optimal structure for one field point is achieved. The optimal structure is not the case for other images at full field points where the aberrations of the lithography system are different, even in high-quality lithography tools. The optimal structure that must match the high-performance images at the full field is urgentl… Show more

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2024

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Cited by 2 publications

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Tatian polynomial-based annular pupil wavefront optimization method for high-NA extreme ultraviolet lithography

Yuan,

Li,

et al. 2024

Appl. Opt.

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The advanced technology node has an exact error tolerance. The effect of projection objective aberration on imaging cannot be neglected. In order to reduce the effect of aberration, considering the central obscuration of the high-NA extreme ultraviolet projection objective, we propose a Tatian polynomial-based annular pupil wavefront optimization (TBAPWO) method. An active pupil consisting of 64-term Tatian polynomials is incorporated into the imaging model. The suitable coefficients of the Tatian polynomials are solved using the gradient iteration method. The optimized active pupil can improve lithographic imaging quality. Simulation results show that the TBAPWO method can effectively reduce the pattern error of imaging by more than 30%, which indicates that the effect of aberration on imaging is controlled.

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Tatian polynomial-based annular pupil wavefront optimization method for high-NA extreme ultraviolet lithography

Yuan,

Li,

et al. 2024

Appl. Opt.

View full text Add to dashboard Cite

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Fast source mask optimization adopting mask prediction and feedback method with similarity penalty

Huang,

Li,

Yuan

et al. 2024

Appl. Opt.

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Source mask optimization (SMO) based on gradient descent is a widely utilized technique in computational lithography. However, it is crucial to enhance the optimization efficiency of SMO, especially at advanced nodes. A mask predictive feedback with similarity penalty term SMO method is developed in this paper. This method incorporates a similarity penalty term into the loss function. It also employs a mask prediction feedback (MPF) method to more effectively utilize the mask and its gradient information during the iterative process. The simulation results indicate that the proposed method can reduce running time by at least 30% compared to using the Adam optimizer while ensuring target optimization conditions. Additionally, ablation experiments reveal that the proposed method improves algorithm efficiency more effectively than using the MPF method or similarity penalty term individually.

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Effective multi-objective inverse lithography technology at full-field and full-chip levels with a hybrid dynamic priority algorithm

Cited by 2 publications

References 20 publications

Tatian polynomial-based annular pupil wavefront optimization method for high-NA extreme ultraviolet lithography

Tatian polynomial-based annular pupil wavefront optimization method for high-NA extreme ultraviolet lithography

Fast source mask optimization adopting mask prediction and feedback method with similarity penalty

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