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</script>We provide 6 data folders, which were used in our paper Amin, I., Raja, S., Krishnapriyan, A.S. (2024). Towards Fast, Specialized Machine Learning Force Fields: Distilling Foundation Models via Energy Hessians. Accepted to ICLR 2025. arXiv:2501.09009. md22_JMP_labels.tar.gz - md22 JMP (large and small, finetuned) Hessian Labels for Buckyball Catcher and Double Walled Nanotube splits SPICE_MaceOFF_labels.tar.gz - SPICE Mace-OFF Hessian Labels MPtrj_labels.tar.gz - MPTrj Mace-MP Hessian Labels spice_separated.tar.gz - SPICE subdatasets (lmdb) (Solvated Amino Acids, Molecules with Iodine, DES370K Monomers) md22.tar.gz - MD22 datasets (lmdb) for buckyball catcher and double wall nanotube. Taken from the JMP repository (see paper). MPtrj_separated_all_splits.zip - MPtrj subdatasets (lmdb) filtered by property (Pm3m Spacegroup, Systems with Yttrium, Bandgap >= 5 meV). The original data was taken from the SPICE dataset , MPtrj dataset, and md22 dataset The repository for the paper, where these datasets can be used, is available at https://github.com/ASK-Berkeley/MLFF-distill. If you found any of this useful, please consider citing the paper: @article{amin2025distilling, title={Towards Fast, Specialized Machine Learning Force Fields: Distilling Foundation Models via Energy Hessians}, author={Ishan Amin, Sanjeev Raja, and Krishnapriyan, A.S.}, journal={International Conference on Learning Representations 2025}, year={2025}, archivePrefix={arXiv}, eprint={2501.09009},}
Machine Learning, Materials Science, Molecular and chemical physics, Quantum chemistry
Machine Learning, Materials Science, Molecular and chemical physics, Quantum chemistry
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