2019
DOI: 10.1002/adts.201900015
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ICET – A Python Library for Constructing and Sampling Alloy Cluster Expansions

Abstract: Alloy cluster expansions (CEs) provide an accurate and computationally efficient mapping of the potential energy surface of multi‐component systems that enables comprehensive sampling of the many‐dimensional configuration space. Here, integrated cluster expansion toolkit (ICET), a flexible, extensible, and computationally efficient software package, is introduced for the construction and sampling of CEs. ICET is largely written in Python for easy integration in comprehensive workflows, including first‐principl… Show more

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Cited by 151 publications
(118 citation statements)
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“…While the methods achieve comparable RMSE scores, the optimal LASSO solution contains a much larger number of features. The tendency of (standard) LASSO to over-select is known 35 and we have observed this behavior also in other applications such as alloy cluster expansions 47 . A physical understanding of the shortcoming of LASSO is obtained by inspecting the FCs directly (Fig.…”
Section: Second-order Fcs: Large Low-symmetry Systemssupporting
confidence: 59%
“…While the methods achieve comparable RMSE scores, the optimal LASSO solution contains a much larger number of features. The tendency of (standard) LASSO to over-select is known 35 and we have observed this behavior also in other applications such as alloy cluster expansions 47 . A physical understanding of the shortcoming of LASSO is obtained by inspecting the FCs directly (Fig.…”
Section: Second-order Fcs: Large Low-symmetry Systemssupporting
confidence: 59%
“…The DFs were calculated with enumerated structures with up to four atoms per primitive cell, as well as SQSs with 20–24 atoms (depending on target concentration). [ 32,54,55 ] The latter were generated with a simulated annealing approach minimizing the deviation from the random limit of the cluster correlation of pairs shorter than 3.25 a and triplets shorter than 1.5 a ( a being the lattice parameter), and with additional weight assigned to the cluster correlation of short‐ranged pairs, using the default parameters suggested in ref. [ 56 ] .…”
Section: Methodsmentioning
confidence: 99%
“…We calculated the compositional phase diagram of Li x NiO 2 performing Monte Carlo simulations in the semi-grand canonical ensemble-i.e., at constant temperature T, total number of sites N and chemical potential difference Dm between vacancies and Li ions-with the aid of the mchammer module of ICET. 44 Simulations were started at 2000 K and equally spaced chemical potential differences between À0.6 eV per f.u. to 0.6 eV per f.u.…”
Section: Computational Approachmentioning
confidence: 99%