Self-Supervised Learning for Crystal Property Prediction via Denoising

New, Alexander; Le, Nam Q; Pekala, Michael; Stiles, Christopher D

Self-Supervised Learning for Crystal Property Prediction via Denoising

Alexander New, Nam Q Le, Michael Pekala, Christopher D Stiles

ICMLW 2024

/icmlw/2024/new2024icmlw-selfsupervised/

Abstract

Accurate prediction of the properties of crystalline materials is crucial for targeted discovery, and this prediction is increasingly done with data-driven models. However, for many properties of interest, the number of materials for which a specific property has been determined is much smaller than the number of known materials. To overcome this disparity, we propose a novel self-supervised learning (SSL) strategy for material property prediction. Our approach, crystal denoising self-supervised learning (CDSSL), pretrains predictive models (e.g., graph networks) with a pretext task based on recovering valid material structures when given perturbed versions of these structures. We demonstrate that CDSSL models out-perform models trained without SSL, across material types, properties, and dataset sizes.

PDF ICMLW OpenReview Semantic Scholar

Cite

Text

New et al. "Self-Supervised Learning for Crystal Property Prediction via Denoising." ICML 2024 Workshops: AI4Science, 2024.

Markdown

[New et al. "Self-Supervised Learning for Crystal Property Prediction via Denoising." ICML 2024 Workshops: AI4Science, 2024.](https://mlanthology.org/icmlw/2024/new2024icmlw-selfsupervised/)

BibTeX

@inproceedings{new2024icmlw-selfsupervised,
  title     = {{Self-Supervised Learning for Crystal Property Prediction via Denoising}},
  author    = {New, Alexander and Le, Nam Q and Pekala, Michael and Stiles, Christopher D},
  booktitle = {ICML 2024 Workshops: AI4Science},
  year      = {2024},
  url       = {https://mlanthology.org/icmlw/2024/new2024icmlw-selfsupervised/}
}