Soft and transferable pseudopotentials from multi-objective optimization
Ab initio pseudopotentials are a linchpin of modern molecular and condensed matter electronic structure calculations. In this work, we employ multi-objective optimization to maximize pseudopotential softness while maintaining high accuracy and transferability. To accomplish this, we develop a formul...
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| creator | Shojaei, Mostafa Faghih Pask, John E Medford, Andrew J Suryanarayana, Phanish |
| description | Ab initio pseudopotentials are a linchpin of modern molecular and condensed
matter electronic structure calculations. In this work, we employ
multi-objective optimization to maximize pseudopotential softness while
maintaining high accuracy and transferability. To accomplish this, we develop a
formulation in which softness and accuracy are simultaneously maximized, with
accuracy determined by the ability to reproduce all-electron energy differences
between Bravais lattice structures, whereupon the resulting Pareto frontier is
scanned for the softest pseudopotential that provides the desired accuracy in
established transferability tests. We employ an evolutionary algorithm to solve
the multi-objective optimization problem and apply it to generate a
comprehensive table of optimized norm-conserving Vanderbilt (ONCV)
pseudopotentials (https://github.com/SPARC-X/SPMS-psps). We show that the
resulting table is softer than existing tables of comparable accuracy, while
more accurate than tables of comparable softness. The potentials thus afford
the possibility to speed up calculations in a broad range of applications areas
while maintaining high accuracy. |
| doi_str_mv | 10.48550/arxiv.2209.09806 |
| format | Article |
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matter electronic structure calculations. In this work, we employ
multi-objective optimization to maximize pseudopotential softness while
maintaining high accuracy and transferability. To accomplish this, we develop a
formulation in which softness and accuracy are simultaneously maximized, with
accuracy determined by the ability to reproduce all-electron energy differences
between Bravais lattice structures, whereupon the resulting Pareto frontier is
scanned for the softest pseudopotential that provides the desired accuracy in
established transferability tests. We employ an evolutionary algorithm to solve
the multi-objective optimization problem and apply it to generate a
comprehensive table of optimized norm-conserving Vanderbilt (ONCV)
pseudopotentials (https://github.com/SPARC-X/SPMS-psps). We show that the
resulting table is softer than existing tables of comparable accuracy, while
more accurate than tables of comparable softness. The potentials thus afford
the possibility to speed up calculations in a broad range of applications areas
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matter electronic structure calculations. In this work, we employ
multi-objective optimization to maximize pseudopotential softness while
maintaining high accuracy and transferability. To accomplish this, we develop a
formulation in which softness and accuracy are simultaneously maximized, with
accuracy determined by the ability to reproduce all-electron energy differences
between Bravais lattice structures, whereupon the resulting Pareto frontier is
scanned for the softest pseudopotential that provides the desired accuracy in
established transferability tests. We employ an evolutionary algorithm to solve
the multi-objective optimization problem and apply it to generate a
comprehensive table of optimized norm-conserving Vanderbilt (ONCV)
pseudopotentials (https://github.com/SPARC-X/SPMS-psps). We show that the
resulting table is softer than existing tables of comparable accuracy, while
more accurate than tables of comparable softness. The potentials thus afford
the possibility to speed up calculations in a broad range of applications areas
while maintaining high accuracy.</description><subject>Physics - Chemical Physics</subject><subject>Physics - Computational Physics</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNotz71OwzAYhWEvHVDpBTDhG0j4HP9mRFWhSJUY2j2y48-SURJHjlsBV18oTGd5daSHkAcGtTBSwpPNn_FSNw20NbQG1B3ZH1Mo1E6elmynJWC2bkA6L3j2aU4FpxLtsNCQ00jH81BildwH9iVekKa5xDF-2xLTdE9W4SfEzf-uyelld9ruq8P769v2-VBZpVUllOdeyUYKyUGgdOhAm77pGesRjdKmDcoDd84wZlAwx1ttgHuNqIWzfE0e_25vlG7OcbT5q_sldTcSvwJw7EfM</recordid><startdate>20220920</startdate><enddate>20220920</enddate><creator>Shojaei, Mostafa Faghih</creator><creator>Pask, John E</creator><creator>Medford, Andrew J</creator><creator>Suryanarayana, Phanish</creator><scope>GOX</scope></search><sort><creationdate>20220920</creationdate><title>Soft and transferable pseudopotentials from multi-objective optimization</title><author>Shojaei, Mostafa Faghih ; Pask, John E ; Medford, Andrew J ; Suryanarayana, Phanish</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a676-46d3d652545304e5beb078c2c11cee86789f6d03bb8118e41b397803d7ee74ba3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>Physics - Chemical Physics</topic><topic>Physics - Computational Physics</topic><toplevel>online_resources</toplevel><creatorcontrib>Shojaei, Mostafa Faghih</creatorcontrib><creatorcontrib>Pask, John E</creatorcontrib><creatorcontrib>Medford, Andrew J</creatorcontrib><creatorcontrib>Suryanarayana, Phanish</creatorcontrib><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Shojaei, Mostafa Faghih</au><au>Pask, John E</au><au>Medford, Andrew J</au><au>Suryanarayana, Phanish</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Soft and transferable pseudopotentials from multi-objective optimization</atitle><date>2022-09-20</date><risdate>2022</risdate><abstract>Ab initio pseudopotentials are a linchpin of modern molecular and condensed
matter electronic structure calculations. In this work, we employ
multi-objective optimization to maximize pseudopotential softness while
maintaining high accuracy and transferability. To accomplish this, we develop a
formulation in which softness and accuracy are simultaneously maximized, with
accuracy determined by the ability to reproduce all-electron energy differences
between Bravais lattice structures, whereupon the resulting Pareto frontier is
scanned for the softest pseudopotential that provides the desired accuracy in
established transferability tests. We employ an evolutionary algorithm to solve
the multi-objective optimization problem and apply it to generate a
comprehensive table of optimized norm-conserving Vanderbilt (ONCV)
pseudopotentials (https://github.com/SPARC-X/SPMS-psps). We show that the
resulting table is softer than existing tables of comparable accuracy, while
more accurate than tables of comparable softness. The potentials thus afford
the possibility to speed up calculations in a broad range of applications areas
while maintaining high accuracy.</abstract><doi>10.48550/arxiv.2209.09806</doi><oa>free_for_read</oa></addata></record> |
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| title | Soft and transferable pseudopotentials from multi-objective optimization |
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