Self-consistent Validation for Machine Learning Electronic Structure

Self-consistent Validation for Machine Learning Electronic Structure

Machine learning has emerged as a significant approach to efficiently tackle electronic structure problems. Despite its potential, there is less guarantee for the model to generalize to unseen data that hinders its application in real-world scenarios. To address this issue, a technique has been prop...

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Bibliographische Detailangaben
Hauptverfasser: Hu, Gengyuan, Wei, Gengchen, Lou, Zekun, Torr, Philip H. S, Ouyang, Wanli, Zhong, Han-sen, Lin, Chen
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Learning
Physics - Chemical Physics
Physics - Computational Physics
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Zusammenfassung:Machine learning has emerged as a significant approach to efficiently tackle electronic structure problems. Despite its potential, there is less guarantee for the model to generalize to unseen data that hinders its application in real-world scenarios. To address this issue, a technique has been proposed to estimate the accuracy of the predictions. This method integrates machine learning with self-consistent field methods to achieve both low validation cost and interpret-ability. This, in turn, enables exploration of the model's ability with active learning and instills confidence in its integration into real-world studies.
DOI:10.48550/arxiv.2402.10186