English

Understanding Machine-learned Density Functionals

Chemical Physics 2014-05-28 v2 Machine Learning Computational Physics Machine Learning
Authors: Li Li , John C. Snyder , Isabelle M. Pelaschier , Jessica Huang , Uma-Naresh Niranjan , Paul Duncan , Matthias Rupp , Klaus-Robert Müller , Kieron Burke
View on arXiv PDF

Abstract

Kernel ridge regression is used to approximate the kinetic energy of non-interacting fermions in a one-dimensional box as a functional of their density. The properties of different kernels and methods of cross-validation are explored, and highly accurate energies are achieved. Accurate {\em constrained optimal densities} are found via a modified Euler-Lagrange constrained minimization of the total energy. A projected gradient descent algorithm is derived using local principal component analysis. Additionally, a sparse grid representation of the density can be used without degrading the performance of the methods. The implications for machine-learned density functional approximations are discussed.

Keywords

neural networks in physics computational optimization machine learning for materials science

Cite

@article{arxiv.1404.1333,
  title  = {Understanding Machine-learned Density Functionals},
  author = {Li Li and John C. Snyder and Isabelle M. Pelaschier and Jessica Huang and Uma-Naresh Niranjan and Paul Duncan and Matthias Rupp and Klaus-Robert Müller and Kieron Burke},
  journal= {arXiv preprint arXiv:1404.1333},
  year   = {2014}
}

Related papers

View all related →
Computational Physics · Physics
Understanding Kernel Ridge Regression: Common behaviors from simple functions to density functionals
Kevin Vu, John Snyder, Li Li, Matthias Rupp +4
2015-01-29
Machine Learning · Computer Science
Kernel-based function learning in dynamic and non stationary environments
Alberto Giaretta, Mauro Bisiacco, Gianluigi Pillonetto
2023-10-05
Methodology · Statistics
Multi-Layer Kernel Machines: Fast and Optimal Nonparametric Regression with Uncertainty Quantification
Xiaowu Dai, Huiying Zhong
2024-03-18
Computational Physics · Physics
Finding Density Functionals with Machine Learning
John C. Snyder, Matthias Rupp, Katja Hansen, Klaus-Robert Müller +1
2015-06-03
Statistics Theory · Mathematics
Kernel Ridge Regression with Predicted Feature Inputs and Applications to Factor-Based Nonparametric Regression
Xin Bing, Xin He, Chao Wang
2025-09-23
Strongly Correlated Electrons · Physics
Machine Learning Green's Functions of Strongly Correlated Hubbard Models
Mateo Cárdenes Wuttig
2026-05-08
Statistics Theory · Mathematics
Constrained recursive kernel density/regression estimation by stochastic quasi-gradient methods
Vladimir Norkin, Vladimir Kirilyuk
2024-09-05
Statistics Theory · Mathematics
Optimal learning rates for Kernel Conjugate Gradient regression
Gilles Blanchard, Nicole Kraemer
2010-09-30
Machine Learning · Statistics
A Structure-Preserving Kernel Method for Learning Hamiltonian Systems
Jianyu Hu, Juan-Pablo Ortega, Daiying Yin
2025-04-07
Machine Learning · Statistics
Optimal Rates and Saturation for Noiseless Kernel Ridge Regression
Jihao Long, Xiaojun Peng, Lei Wu
2025-04-14
Statistics Theory · Mathematics
A ridge-parameter approach to deconvolution
Peter Hall, Alexander Meister
2009-09-29
Machine Learning · Statistics
Interpretable Kernels
Patrick J. F. Groenen, Michael Greenacre
2025-08-25
Machine Learning · Computer Science
Optimal Rates of Distributed Regression with Imperfect Kernels
Hongwei Sun, Qiang Wu
2020-07-01
Data Analysis, Statistics and Probability · Physics
Kernel density estimation of a multidimensional efficiency profile
Anton Poluektov
2015-02-27
Machine Learning · Statistics
Fast Robust Kernel Regression through Sign Gradient Descent with Early Stopping
Oskar Allerbo
2025-03-10
Statistics Theory · Mathematics
Nonparametric ridge estimation
Christopher R. Genovese, Marco Perone-Pacifico, Isabella Verdinelli, Larry Wasserman
2014-08-29
Statistics Theory · Mathematics
Divide and Conquer Kernel Ridge Regression: A Distributed Algorithm with Minimax Optimal Rates
Yuchen Zhang, John C. Duchi, Martin J. Wainwright
2014-05-01
Statistics Theory · Mathematics
On the Improved Rates of Convergence for Mat\'ern-type Kernel Ridge Regression, with Application to Calibration of Computer Models
Rui Tuo, Yan Wang, C. F. Jeff Wu
2020-01-03
Statistics Theory · Mathematics
Convergence of Gaussian process regression: Optimality, robustness, and relationship with kernel ridge regression
Wenjia Wang, Bing-Yi Jing
2022-07-20
Machine Learning · Computer Science
Sparse Multiple Kernel Learning with Geometric Convergence Rate
Rong Jin, Tianbao Yang, Mehrdad Mahdavi
2013-02-05
Disordered Systems and Neural Networks · Physics
Efficient Learning of a One-dimensional Density Functional Theory
M. Michael Denner, Mark H. Fischer, Titus Neupert
2020-09-23
Nuclear Theory · Physics
Multi-task learning on nuclear masses and separation energies with the kernel ridge regression
X. H. Wu, Y. Y. Lu, P. W. Zhao
2022-08-31
Information Theory · Computer Science
A Kernel-Based Calculation of Information on a Metric Space
R. Joshua Tobin, Conor J. Houghton
2014-05-20
Statistics Theory · Mathematics
Reduced Rank Multivariate Kernel Ridge Regression
Wenjia Wang, Yi-Hui Zhou
2020-05-05
Machine Learning · Computer Science
Distributed Kernel Ridge Regression with Communications
Shao-Bo Lin, Di Wang, Ding-Xuan Zhou
2020-03-30
R2 v1 2026-06-22T03:43:24.890Z