Software for the frontiers of quantum chemistry: An overview of developments in the Q-Chem 5 package

用于量子化学前沿领域的软件：Q-Chem 5 软件包发展概述

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作者：Evgeny Epifanovsky，Andrew T B Gilbert，Xintian Feng，Joonho Lee，Yuezhi Mao，Narbe Mardirossian，Pavel Pokhilko，Alec F White，Marc P Coons，Adrian L Dempwolff，Zhengting Gan，Diptarka Hait，Paul R Horn，Leif D Jacobson，Ilya Kaliman，Jörg Kussmann，Adrian W Lange，Ka Un Lao，Daniel S Levine，Jie Liu，Simon C McKenzie，Adrian F Morrison，Kaushik D Nanda，Felix Plasser，Dirk R Rehn，Marta L Vidal，Zhi-Qiang You，Ying Zhu，Bushra Alam，Benjamin J Albrecht，Abdulrahman Aldossary，Ethan Alguire，Josefine H Andersen，Vishikh Athavale，Dennis Barton，Khadiza Begam，Andrew Behn，Nicole Bellonzi，Yves A Bernard，Eric J Berquist，Hugh G A Burton，Abel Carreras，Kevin Carter-Fenk，Romit Chakraborty，Alan D Chien，Kristina D Closser，Vale Cofer-Shabica，Saswata Dasgupta，Marc de Wergifosse，Jia Deng，Michael Diedenhofen，Hainam Do，Sebastian Ehlert，Po-Tung Fang，Shervin Fatehi，Qingguo Feng，Triet Friedhoff，James Gayvert，Qinghui Ge，Gergely Gidofalvi，Matthew Goldey，Joe Gomes，Cristina E González-Espinoza，Sahil Gulania，Anastasia O Gunina，Magnus W D Hanson-Heine，Phillip H P Harbach，Andreas Hauser，Michael F Herbst，Mario Hernández Vera，Manuel Hodecker，Zachary C Holden，Shannon Houck，Xunkun Huang，Kerwin Hui，Bang C Huynh，Maxim Ivanov，Ádám Jász，Hyunjun Ji，Hanjie Jiang，Benjamin Kaduk，Sven Kähler，Kirill Khistyaev，Jaehoon Kim，Gergely Kis，Phil Klunzinger，Zsuzsanna Koczor-Benda，Joong Hoon Koh，Dimitri Kosenkov，Laura Koulias，Tim Kowalczyk，Caroline M Krauter，Karl Kue，Alexander Kunitsa，Thomas Kus，István Ladjánszki，Arie Landau，Keith V Lawler，Daniel Lefrancois，Susi Lehtola，Run R Li，Yi-Pei Li，Jiashu Liang，Marcus Liebenthal，Hung-Hsuan Lin，You-Sheng Lin，Fenglai Liu，Kuan-Yu Liu，Matthias Loipersberger，Arne Luenser，Aaditya Manjanath，Prashant Manohar，Erum Mansoor，Sam F Manzer，Shan-Ping Mao，Aleksandr V Marenich，Thomas Markovich，Stephen Mason，Simon A Maurer，Peter F McLaughlin，Maximilian F S J Menger，Jan-Michael Mewes，Stefanie A Mewes，Pierpaolo Morgante，J Wayne Mullinax，Katherine J Oosterbaan，Garrette Paran，Alexander C Paul，Suranjan K Paul，Fabijan Pavošević，Zheng Pei，Stefan Prager，Emil I Proynov，Ádám Rák，Eloy Ramos-Cordoba，Bhaskar Rana，Alan E Rask，Adam Rettig，Ryan M Richard，Fazle Rob，Elliot Rossomme，Tarek Scheele，Maximilian Scheurer，Matthias Schneider，Nickolai Sergueev，Shaama M Sharada，Wojciech Skomorowski，David W Small，Christopher J Stein，Yu-Chuan Su，Eric J Sundstrom，Zhen Tao，Jonathan Thirman，Gábor J Tornai，Takashi Tsuchimochi，Norm M Tubman，Srimukh Prasad Veccham，Oleg Vydrov，Jan Wenzel，Jon Witte，Atsushi Yamada，Kun Yao，Sina Yeganeh，Shane R Yost，Alexander Zech，Igor Ying Zhang，Xing Zhang，Yu Zhang，Dmitry Zuev，Alán Aspuru-Guzik，Alexis T Bell，Nicholas A Besley，Ksenia B Bravaya，Bernard R Brooks，David Casanova，Jeng-Da Chai，Sonia Coriani，Christopher J Cramer，György Cserey，A Eugene DePrince rd，Robert A DiStasio Jr，Andreas Dreuw，Barry D Dunietz，Thomas R Furlani，William A Goddard rd，Sharon Hammes-Schiffer，Teresa Head-Gordon，Warren J Hehre，Chao-Ping Hsu，Thomas-C Jagau，Yousung Jung，Andreas Klamt，Jing Kong，Daniel S Lambrecht，WanZhen Liang，Nicholas J Mayhall，C William McCurdy，Jeffrey B Neaton，Christian Ochsenfeld，John A Parkhill，Roberto Peverati，Vitaly A Rassolov，Yihan Shao，Lyudmila V Slipchenko，Tim Stauch，Ryan P Steele，Joseph E Subotnik，Alex J W Thom，Alexandre Tkatchenko，Donald G Truhlar，Troy Van Voorhis，Tomasz A Wesolowski，K Birgitta Whaley，H Lee Woodcock rd，Paul M Zimmerman，Shirin Faraji，Peter M W Gill，Martin Head-Gordon，John M Herbert，Anna I Krylov

期刊：		影响因子：	3.100
时间：	2021	起止号：	2021 Aug 28;155(8):084801.
doi：	PMC9984241

Abstract

This article summarizes technical advances contained in the fifth major release of the Q-Chem quantum chemistry program package, covering developments since 2015. A comprehensive library of exchange-correlation functionals, along with a suite of correlated many-body methods, continues to be a hallmark of the Q-Chem software. The many-body methods include novel variants of both coupled-cluster and configuration-interaction approaches along with methods based on the algebraic diagrammatic construction and variational reduced density-matrix methods. Methods highlighted in Q-Chem 5 include a suite of tools for modeling core-level spectroscopy, methods for describing metastable resonances, methods for computing vibronic spectra, the nuclear-electronic orbital method, and several different energy decomposition analysis techniques. High-performance capabilities including multithreaded parallelism and support for calculations on graphics processing units are described. Q-Chem boasts a community of well over 100 active academic developers, and the continuing evolution of the software is supported by an "open teamware" model and an increasingly modular design.

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