Atomistic simulations are an important tool in materials modeling. Interatomic potentials (IPs) are at the heart of such molecular models, and the accuracy of a model's predictions depends strongly on the choice of IP. Uncertainty quantification (UQ) is an emerging tool for assessing the reliability of atomistic simulations. The Open Knowledgebase of Interatomic Models (OpenKIM) is a cyberinfrastructure project whose goal is to collect and standardize the study of IPs to enable transparent, reproducible research. Part of the OpenKIM framework is the Python package, KIM-based Learning-Integrated Fitting Framework (KLIFF), that provides tools for fitting parameters in an IP to data. This paper introduces a UQ toolbox extension to KLIFF. We fo...
Abstract Machine learning interatomic potentials (MLIPs) are a promising technique for atomic modeli...
Nanoscale modeling of materials often involves the use of molecular simulations or multiscale method...
Numerous models have been developed in the past to characterize the structural and dynamical propert...
Effective potentials are an essential ingredient of classical molecular dynamics (MD) simulations. L...
As computational power grows, materials simulation becomes an increasingly valuable scientific tool....
Simulation has long since joined experiment and theory as a valuable tool to address materials probl...
University of Minnesota Ph.D. dissertation.July 2019. Major: Aerospace Engineering and Mechanics. A...
Molecular Dynamics (MD) simulations complement experimental methods by offering a computationally fa...
Machine-learning (ML) interatomic potentials (IPs) trained on first-principles datasets are becoming...
We present a scheme to obtain an inexpensive and reliable estimate of the uncertainty associated wit...
A comprehensive Bayesian probabilistic framework is developed for quantifying and calibrating the un...
Fitted interatomic potentials are widely used in atomistic simulations thanks to their ability to co...
We report an evaluation of a semi-empirical quantum chemical method PM7 from the perspective of unce...
Molecular simulations allow to investigate the behaviour of materials at the atomistic level, sheddi...
Molecular dynamics (MD) is an important method underlying the modern field of Computational Material...
Abstract Machine learning interatomic potentials (MLIPs) are a promising technique for atomic modeli...
Nanoscale modeling of materials often involves the use of molecular simulations or multiscale method...
Numerous models have been developed in the past to characterize the structural and dynamical propert...
Effective potentials are an essential ingredient of classical molecular dynamics (MD) simulations. L...
As computational power grows, materials simulation becomes an increasingly valuable scientific tool....
Simulation has long since joined experiment and theory as a valuable tool to address materials probl...
University of Minnesota Ph.D. dissertation.July 2019. Major: Aerospace Engineering and Mechanics. A...
Molecular Dynamics (MD) simulations complement experimental methods by offering a computationally fa...
Machine-learning (ML) interatomic potentials (IPs) trained on first-principles datasets are becoming...
We present a scheme to obtain an inexpensive and reliable estimate of the uncertainty associated wit...
A comprehensive Bayesian probabilistic framework is developed for quantifying and calibrating the un...
Fitted interatomic potentials are widely used in atomistic simulations thanks to their ability to co...
We report an evaluation of a semi-empirical quantum chemical method PM7 from the perspective of unce...
Molecular simulations allow to investigate the behaviour of materials at the atomistic level, sheddi...
Molecular dynamics (MD) is an important method underlying the modern field of Computational Material...
Abstract Machine learning interatomic potentials (MLIPs) are a promising technique for atomic modeli...
Nanoscale modeling of materials often involves the use of molecular simulations or multiscale method...
Numerous models have been developed in the past to characterize the structural and dynamical propert...