Openchem: deep learning toolkit for computational chemistry and drug design
Published in ChemRxiv, 2020
Recommended citation: Mariya Popova, Boris Ginsburg, Alexander Tropsha and Olexandr Isayev. "Openchem: deep learning toolkit for computational chemistry and drug design." (2020)
[ChemRxiv] Under review in [Journal of Chemical Information and Modeling]
Abstract
Deep learning models have demonstrated outstanding results in many data-rich areas of research, such as computer vision and natural language processing. Currently, there is a rise of deep learning in computational chemistry and materials informatics, where deep learning could be effectively applied in modeling the relationship between chemical structures and their properties. With the immense growth of chemical and materials data, deep learning models can begin to outperform conventional machine learning techniques such as random forest, support vector machines, nearest neighbor, etc. Herein, we introduce OpenChem, a PyTorch-based deep learning toolkit for computational chemistry and drug design. OpenChem offers easy and fast model development, modular software design, and several data preprocessing modules. It is freely available via the GitHub repository.