Preference Optimization for Molecular Language Models

Park, Ryan, Theisen, Ryan, Sahni, Navriti, Patek, Marcel, Cichońska, Anna, Rahman, Rayees

Oct-18-2023–arXiv.org Machine Learning

Molecular language modeling is an effective approach to generating novel chemical structures. However, these models do not \emph{a priori} encode certain preferences a chemist may desire. We investigate the use of fine-tuning using Direct Preference Optimization to better align generated molecules with chemist preferences. Our findings suggest that this approach is simple, efficient, and highly effective.

artificial intelligence, machine learning, natural language, (19 more...)

arXiv.org Machine Learning

Oct-18-2023

arXiv.org PDF

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Country:
- North America > United States > California > Santa Clara County > Palo Alto (0.04)

Genre:
- Research Report > New Finding (0.86)

Industry:
- Health & Medicine > Pharmaceuticals & Biotechnology (0.69)

Technology:
- Information Technology > Artificial Intelligence
  - Machine Learning > Neural Networks
    - Deep Learning (0.72)
  - Natural Language (1.00)

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