Fine-tuning GPT-3 for machine learning electronic and functional properties of organic molecules

Zikai Xie; Xenophon Evangelopoulos; Ömer H. Omar; Alessandro Troisi; Andrew I. Cooper; Linjiang Chen

doi:10.1039/D3SC04610A

Fine-tuning GPT-3 for machine learning electronic and functional properties of organic molecules

Zikai Xie, Xenophon Evangelopoulos, Ömer H. Omar, Alessandro Troisi, Andrew I. Cooper, Linjiang Chen

Chemistry

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Abstract

We evaluate the effectiveness of fine-tuning GPT-3 for the prediction of electronic and functional properties of organic molecules. Our findings show that fine-tuned GPT-3 can successfully identify and distinguish between chemically meaningful patterns, and discern subtle differences among them, exhibiting robust predictive performance for the prediction of molecular properties. We focus on assessing the fine-tuned models' resilience to information loss, resulting from the absence of atoms or chemical groups, and to noise that we introduce via random alterations in atomic identities. We discuss the challenges and limitations inherent to the use of GPT-3 in molecular machine-learning tasks and suggest potential directions for future research and improvements to address these issues.

Original language	English
Pages (from-to)	500-510
Journal	Chemical Science
Volume	15
Issue number	2
DOIs	https://doi.org/10.1039/D3SC04610A
Publication status	Published - 5 Dec 2024

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Fine-tuning GPT-3 for machine learning electronic and functional properties of organic molecules
Xie, Z., Evangelopoulos, X., Omar, Ö., Troisi, A., Cooper, A. I. & Chen, L., 23 Aug 2023, ChemRxiv.
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abstract = "We evaluate the effectiveness of fine-tuning GPT-3 for the prediction of electronic and functional properties of organic molecules. Our findings show that fine-tuned GPT-3 can successfully identify and distinguish between chemically meaningful patterns, and discern subtle differences among them, exhibiting robust predictive performance for the prediction of molecular properties. We focus on assessing the fine-tuned models' resilience to information loss, resulting from the absence of atoms or chemical groups, and to noise that we introduce via random alterations in atomic identities. We discuss the challenges and limitations inherent to the use of GPT-3 in molecular machine-learning tasks and suggest potential directions for future research and improvements to address these issues.",

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AU - Cooper, Andrew I.

AU - Chen, Linjiang

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AB - We evaluate the effectiveness of fine-tuning GPT-3 for the prediction of electronic and functional properties of organic molecules. Our findings show that fine-tuned GPT-3 can successfully identify and distinguish between chemically meaningful patterns, and discern subtle differences among them, exhibiting robust predictive performance for the prediction of molecular properties. We focus on assessing the fine-tuned models' resilience to information loss, resulting from the absence of atoms or chemical groups, and to noise that we introduce via random alterations in atomic identities. We discuss the challenges and limitations inherent to the use of GPT-3 in molecular machine-learning tasks and suggest potential directions for future research and improvements to address these issues.

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Fine-tuning GPT-3 for machine learning electronic and functional properties of organic molecules

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Fine-tuning GPT-3 for machine learning electronic and functional properties of organic molecules

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