Fast and Accurate Modeling of Molecular Atomization Energies with Machine Learning
Abstract
A machine learning model predicts atomization energies of organic molecules by mapping the molecular Schrödinger equation to a nonlinear statistical regression problem, achieving ~10 kcal/mol mean absolute error through cross-validation on thousands of small organic molecules.
We introduce a machine learning model to predict atomization energies of a diverse set of organic molecules, based on nuclear charges and atomic positions only. The problem of solving the molecular Schrödinger equation is mapped onto a non-linear statistical regression problem of reduced complexity. Regression models are trained on and compared to atomization energies computed with hybrid density-functional theory. Cross-validation over more than seven thousand small organic molecules yields a mean absolute error of ~10 kcal/mol. Applicability is demonstrated for the prediction of molecular atomization potential energy curves.
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