All-in-one foundational models learning across quantum chemical levels

arXiv - PHYS - Chemical Physics Pub Date : 2024-09-18 DOI:arxiv-2409.12015

Yuxinxin Chen, Pavlo O. Dral

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Abstract

Machine learning (ML) potentials typically target a single quantum chemical (QC) level while the ML models developed for multi-fidelity learning have not been shown to provide scalable solutions for foundational models. Here we introduce the all-in-one (AIO) ANI model architecture based on multimodal learning which can learn an arbitrary number of QC levels. Our all-in-one learning approach offers a more general and easier-to-use alternative to transfer learning. We use it to train the AIO-ANI-UIP foundational model with the generalization capability comparable to semi-empirical GFN2-xTB and DFT with a double-zeta basis set for organic molecules. We show that the AIO-ANI model can learn across different QC levels ranging from semi-empirical to density functional theory to coupled cluster. We also use AIO models to design the foundational model {\Delta}-AIO-ANI based on {\Delta}-learning with increased accuracy and robustness compared to AIO-ANI-UIP. The code and the foundational models are available at https://github.com/dralgroup/aio-ani; they will be integrated into the universal and updatable AI-enhanced QM (UAIQM) library and made available in the MLatom package so that they can be used online at the XACS cloud computing platform (see https://github.com/dralgroup/mlatom for updates).

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跨量子化学层次的一体化基础模型学习

机器学习（ML）潜力通常以单一量子化学（QC）水平为目标，而为多保真度学习开发的 ML 模型尚未被证明能为基础模型提供可扩展的解决方案。在此，我们介绍了基于多模态学习的一体式（AIO）ANI 模型架构，它可以学习任意数量的 QC 级别。我们的一体化学习方法提供了一种更通用、更易用的方法来替代转移学习。我们用它来训练 AIO-ANI-UIP 基础模型，其泛化能力可与半经验 GFN2-xTB 和使用双 Zeta 基集的 DFT 有机分子相媲美。我们的研究表明，AIO-ANI 模型可以在从半经验到密度泛函理论再到耦合簇的不同质量控制水平上进行学习。与 AIO-ANI-UIP 相比，我们还使用 AIO 模型设计了基于 {\Delta}-learning 的基础模型 {\Delta}-AIO-ANI，提高了准确性和鲁棒性。代码和基础模型可在https://github.com/dralgroup/aio-ani；它们将被集成到通用的、可更新的人工智能增强QM（UAIQM）库中，并在MLatom包中提供，以便在XACS云计算平台上在线使用（更新信息见https://github.com/dralgroup/mlatom）。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Chemical Physics

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