Recent developments in the P<scp>y</scp>SCF program package

Qiming Sun; Xing Zhang; Samragni Banerjee; Peng Bao; Marc Barbry; Nick S. Blunt; Nikolay A. Bogdanov; George H. Booth; Jia Chen; Zhi‐Hao Cui; Janus J. Eriksen; Yang Gao; Sheng Guo; Jan Hermann; Matthew R. Hermes; Kevin J. Koh; Peter Koval; Susi Lehtola; Zhendong Li; Junzi Liu; Narbe Mardirossian; James McClain; Mário Motta; Bastien Mussard; Hung Q. Pham; Artem Pulkin; Wirawan Purwanto; Paul J. Robinson; Enrico Ronca; Elvira R. Sayfutyarova; Maximilian Scheurer; Henry F. Schurkus; James E. T. Smith; Chong Sun; Shi-Ning Sun; Shiv Upadhyay; Lucas K. Wagner; Xiao Wang; Alec F. White; James Whitfield; Mark J. Williamson; Sebastian Wouters; Jun Yang; Jason M. Yu; Tianyu Zhu; Timothy C. Berkelbach; Sandeep Sharma; Alexander Yu. Sokolov; Garnet Kin‐Lic Chan

doi:10.1063/5.0006074

Recent developments in the P<scp>y</scp>SCF program package

Qiming Sun(Axiom (China)), Xing Zhang(California Institute of Technology), Samragni Banerjee(The Ohio State University), Peng Bao(Chinese Academy of Sciences), Marc Barbry, Nick S. Blunt(University of Cambridge), Nikolay A. Bogdanov(Max Planck Institute for Solid State Research), George H. Booth(King's College London), Jia Chen(University of Florida), Zhi‐Hao Cui(California Institute of Technology), Janus J. Eriksen(University of Bristol), Yang Gao(California Institute of Technology), Sheng Guo(Google (United States)), Jan Hermann(Technische Universität Berlin), Matthew R. Hermes(University of Minnesota), Kevin J. Koh(University of Notre Dame), Peter Koval, Susi Lehtola(University of Helsinki), Zhendong Li(Beijing Normal University), Junzi Liu(Johns Hopkins University), Narbe Mardirossian(Amgen (United States)), James McClain, Mário Motta(IBM Research - Almaden), Bastien Mussard(University of Colorado Boulder), Hung Q. Pham(University of Minnesota), Artem Pulkin(QuTech), Wirawan Purwanto(Old Dominion University), Paul J. Robinson(Columbia University), Enrico Ronca(Institute for Chemical and Physical Processes), Elvira R. Sayfutyarova(Yale University), Maximilian Scheurer(Heidelberg University), Henry F. Schurkus(California Institute of Technology), James E. T. Smith(University of Colorado Boulder), Chong Sun(California Institute of Technology), Shi-Ning Sun(California Institute of Technology), Shiv Upadhyay(University of Pittsburgh), Lucas K. Wagner(University of Illinois Urbana-Champaign), Xiao Wang(Flatiron Health (United States)), Alec F. White(California Institute of Technology), James Whitfield(Dartmouth College), Mark J. Williamson(University of Cambridge), Sebastian Wouters(Bellevue Hospital Center), Jun Yang(Chinese University of Hong Kong), Jason M. Yu(University of California, Irvine), Tianyu Zhu(California Institute of Technology), Timothy C. Berkelbach(Flatiron Health (United States)), Sandeep Sharma(University of Colorado Boulder), Alexander Yu. Sokolov(The Ohio State University), Garnet Kin‐Lic Chan(California Institute of Technology)

The Journal of Chemical Physics

July 9, 2020

10.1063/5.0006074

Cited by 1,121Open Access

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Abstract

PySCF is a Python-based general-purpose electronic structure platform that supports first-principles simulations of molecules and solids as well as accelerates the development of new methodology and complex computational workflows. This paper explains the design and philosophy behind PySCF that enables it to meet these twin objectives. With several case studies, we show how users can easily implement their own methods using PySCF as a development environment. We then summarize the capabilities of PySCF for molecular and solid-state simulations. Finally, we describe the growing ecosystem of projects that use PySCF across the domains of quantum chemistry, materials science, machine learning, and quantum information science.

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