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Finding Density Functionals with Machine Learning

Machine learning is used to approximate density functionals. For the model problem of the kinetic energy of non-interacting fermions in 1d, mean absolute errors below 1 kcal/mol on test densities similar to the training set are reached with fewer than 100 training densities. A predictor identifies if a test density is within the interpolation region. Via principal component analysis, a projected functional derivative finds highly accurate self-consistent densities. Challenges for application of our method to real electronic structure problems are discussed.

preprint2011arXivOpen access
John C. SnyderMatthias RuppKatja HansenKlaus-Robert MüllerKieron Burke
physics.comp-phMachine Learningphysics.chem-ph
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John C. SnyderMatthias RuppKatja HansenKlaus-Robert MüllerKieron Burke

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