OpenMolcas: From Source Code to Insight

Ignacio Fdez. Galván; Morgane Vacher; Ali Alavi; Celestino Angeli; Francesco Aquilante; Jochen Autschbach; Jie J. Bao; Sergey I. Bokarev; Nikolay A. Bogdanov; Rebecca K. Carlson; Liviu F. Chibotaru; Joel Creutzberg; Nike Dattani; Mickaël G. Delcey; Sijia S. Dong; Andreas Dreuw; Leon Freitag; Luis Manuel Frutos; Laura Gagliardi; Frédéric Gendron; Angelo Giussani; Leticia González; Gilbert Grell; Meiyuan Guo; Chad E. Hoyer; Marcus Johansson; Sebastian Keller; Stefan Knecht; Goran Kovačević; Erik Källman; Giovanni Li Manni; Marcus Lundberg; Yingjin Ma; Sebastian Mai; João Pedro Malhado; Per Åke Malmqvist; Philipp Marquetand; Stefanie A. Mewes; Jesper Norell; Massimo Olivucci; Markus Oppel; Quan Manh Phung; Kristine Pierloot; Felix Plasser; Markus Reiher; Andrew M. Sand; Igor Schapiro; Prachi Sharma; Christopher J. Stein; Lasse Kragh Sørensen; Donald G. Truhlar; Mihkel Ugandi; Liviu Ungur; Alessio Valentini; Steven Vancoillie; Valera Veryazov; Oskar Weser; Tomasz A. Wesołowski; Per Olof Widmark; Sebastian Wouters; Alexander Zech; J. Patrick Zobel; Roland Lindh

doi:10.1021/acs.jctc.9b00532

OpenMolcas: From Source Code to Insight

Ignacio Fdez. Galván, Morgane Vacher, Ali Alavi, Celestino Angeli, Francesco Aquilante, Jochen Autschbach, Jie J. Bao, Sergey I. Bokarev, Nikolay A. Bogdanov, Rebecca K. Carlson, Liviu F. Chibotaru, Joel Creutzberg, Nike Dattani, Mickaël G. Delcey, Sijia S. Dong, Andreas Dreuw, Leon Freitag, Luis Manuel Frutos, Laura Gagliardi, Frédéric GendronAngelo Giussani, Leticia González, Gilbert Grell, Meiyuan Guo, Chad E. Hoyer, Marcus Johansson, Sebastian Keller, Stefan Knecht, Goran Kovačević, Erik Källman, Giovanni Li Manni, Marcus Lundberg, Yingjin Ma, Sebastian Mai, João Pedro Malhado, Per Åke Malmqvist, Philipp Marquetand, Stefanie A. Mewes, Jesper Norell, Massimo Olivucci, Markus Oppel, Quan Manh Phung, Kristine Pierloot, Felix Plasser, Markus Reiher, Andrew M. Sand, Igor Schapiro, Prachi Sharma, Christopher J. Stein, Lasse Kragh Sørensen, Donald G. Truhlar, Mihkel Ugandi, Liviu Ungur, Alessio Valentini, Steven Vancoillie, Valera Veryazov, Oskar Weser, Tomasz A. Wesołowski, Per Olof Widmark, Sebastian Wouters, Alexander Zech, J. Patrick Zobel, Roland Lindh

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In this Article we describe the OpenMolcas environment and invite the computational chemistry community to collaborate. The open-source project already includes a large number of new developments realized during the transition from the commercial MOLCAS product to the open-source platform. The paper initially describes the technical details of the new software development platform. This is followed by brief presentations of many new methods, implementations, and features of the OpenMolcas program suite. These developments include novel wave function methods such as stochastic complete active space self-consistent field, density matrix renormalization group (DMRG) methods, and hybrid multiconfigurational wave function and density functional theory models. Some of these implementations include an array of additional options and functionalities. The paper proceeds and describes developments related to explorations of potential energy surfaces. Here we present methods for the optimization of conical intersections, the simulation of adiabatic and nonadiabatic molecular dynamics, and interfaces to tools for semiclassical and quantum mechanical nuclear dynamics. Furthermore, the Article describes features unique to simulations of spectroscopic and magnetic phenomena such as the exact semiclassical description of the interaction between light and matter, various X-ray processes, magnetic circular dichroism, and properties. Finally, the paper describes a number of built-in and add-on features to support the OpenMolcas platform with postcalculation analysis and visualization, a multiscale simulation option using frozen-density embedding theory, and new electronic and muonic basis sets.

Originalspråk	engelska
Sidor (från-till)	5925-5964
Tidskrift	Journal of Chemical Theory and Computation
Volym	15
Nummer	11
DOI	https://doi.org/10.1021/acs.jctc.9b00532
Status	Published - 2019 jan. 1

Ämnesklassifikation (UKÄ)

Datorsystem
Teoretisk kemi

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10.1021/acs.jctc.9b00532

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Fdez. Galván, I., Vacher, M., Alavi, A., Angeli, C., Aquilante, F., Autschbach, J., Bao, J. J., Bokarev, S. I., Bogdanov, N. A., Carlson, R. K., Chibotaru, L. F., Creutzberg, J., Dattani, N., Delcey, M. G., Dong, S. S., Dreuw, A., Freitag, L., Frutos, L. M., Gagliardi, L., ... Lindh, R. (2019). OpenMolcas: From Source Code to Insight. Journal of Chemical Theory and Computation, 15(11), 5925-5964. https://doi.org/10.1021/acs.jctc.9b00532

@article{d3f286de2f554454a8806ad58e09e15a,

title = "OpenMolcas: From Source Code to Insight",

abstract = "In this Article we describe the OpenMolcas environment and invite the computational chemistry community to collaborate. The open-source project already includes a large number of new developments realized during the transition from the commercial MOLCAS product to the open-source platform. The paper initially describes the technical details of the new software development platform. This is followed by brief presentations of many new methods, implementations, and features of the OpenMolcas program suite. These developments include novel wave function methods such as stochastic complete active space self-consistent field, density matrix renormalization group (DMRG) methods, and hybrid multiconfigurational wave function and density functional theory models. Some of these implementations include an array of additional options and functionalities. The paper proceeds and describes developments related to explorations of potential energy surfaces. Here we present methods for the optimization of conical intersections, the simulation of adiabatic and nonadiabatic molecular dynamics, and interfaces to tools for semiclassical and quantum mechanical nuclear dynamics. Furthermore, the Article describes features unique to simulations of spectroscopic and magnetic phenomena such as the exact semiclassical description of the interaction between light and matter, various X-ray processes, magnetic circular dichroism, and properties. Finally, the paper describes a number of built-in and add-on features to support the OpenMolcas platform with postcalculation analysis and visualization, a multiscale simulation option using frozen-density embedding theory, and new electronic and muonic basis sets.",

author = "{Fdez. Galv{\'a}n}, Ignacio and Morgane Vacher and Ali Alavi and Celestino Angeli and Francesco Aquilante and Jochen Autschbach and Bao, {Jie J.} and Bokarev, {Sergey I.} and Bogdanov, {Nikolay A.} and Carlson, {Rebecca K.} and Chibotaru, {Liviu F.} and Joel Creutzberg and Nike Dattani and Delcey, {Micka{\"e}l G.} and Dong, {Sijia S.} and Andreas Dreuw and Leon Freitag and Frutos, {Luis Manuel} and Laura Gagliardi and Fr{\'e}d{\'e}ric Gendron and Angelo Giussani and Leticia Gonz{\'a}lez and Gilbert Grell and Meiyuan Guo and Hoyer, {Chad E.} and Marcus Johansson and Sebastian Keller and Stefan Knecht and Goran Kova{\v c}evi{\'c} and Erik K{\"a}llman and {Li Manni}, Giovanni and Marcus Lundberg and Yingjin Ma and Sebastian Mai and Malhado, {Jo{\~a}o Pedro} and Malmqvist, {Per {\AA}ke} and Philipp Marquetand and Mewes, {Stefanie A.} and Jesper Norell and Massimo Olivucci and Markus Oppel and Phung, {Quan Manh} and Kristine Pierloot and Felix Plasser and Markus Reiher and Sand, {Andrew M.} and Igor Schapiro and Prachi Sharma and Stein, {Christopher J.} and S{\o}rensen, {Lasse Kragh} and Truhlar, {Donald G.} and Mihkel Ugandi and Liviu Ungur and Alessio Valentini and Steven Vancoillie and Valera Veryazov and Oskar Weser and Weso{\l}owski, {Tomasz A.} and Widmark, {Per Olof} and Sebastian Wouters and Alexander Zech and Zobel, {J. Patrick} and Roland Lindh",

year = "2019",

month = jan,

day = "1",

doi = "10.1021/acs.jctc.9b00532",

language = "English",

volume = "15",

pages = "5925--5964",

journal = "Journal of Chemical Theory and Computation",

issn = "1549-9618",

publisher = "The American Chemical Society (ACS)",

number = "11",

}

Fdez. Galván, I, Vacher, M, Alavi, A, Angeli, C, Aquilante, F, Autschbach, J, Bao, JJ, Bokarev, SI, Bogdanov, NA, Carlson, RK, Chibotaru, LF, Creutzberg, J, Dattani, N, Delcey, MG, Dong, SS, Dreuw, A, Freitag, L, Frutos, LM, Gagliardi, L, Gendron, F, Giussani, A, González, L, Grell, G, Guo, M, Hoyer, CE, Johansson, M, Keller, S, Knecht, S, Kovačević, G, Källman, E, Li Manni, G, Lundberg, M, Ma, Y, Mai, S, Malhado, JP, Malmqvist, PÅ, Marquetand, P, Mewes, SA, Norell, J, Olivucci, M, Oppel, M, Phung, QM, Pierloot, K, Plasser, F, Reiher, M, Sand, AM, Schapiro, I, Sharma, P, Stein, CJ, Sørensen, LK, Truhlar, DG, Ugandi, M, Ungur, L, Valentini, A, Vancoillie, S, Veryazov, V, Weser, O, Wesołowski, TA, Widmark, PO, Wouters, S, Zech, A, Zobel, JP & Lindh, R 2019, 'OpenMolcas: From Source Code to Insight', Journal of Chemical Theory and Computation, vol. 15, nr. 11, s. 5925-5964. https://doi.org/10.1021/acs.jctc.9b00532

TY - JOUR

T1 - OpenMolcas

T2 - From Source Code to Insight

AU - Fdez. Galván, Ignacio

AU - Vacher, Morgane

AU - Alavi, Ali

AU - Angeli, Celestino

AU - Aquilante, Francesco

AU - Autschbach, Jochen

AU - Bao, Jie J.

AU - Bokarev, Sergey I.

AU - Bogdanov, Nikolay A.

AU - Carlson, Rebecca K.

AU - Chibotaru, Liviu F.

AU - Creutzberg, Joel

AU - Dattani, Nike

AU - Delcey, Mickaël G.

AU - Dong, Sijia S.

AU - Dreuw, Andreas

AU - Freitag, Leon

AU - Frutos, Luis Manuel

AU - Gagliardi, Laura

AU - Gendron, Frédéric

AU - Giussani, Angelo

AU - González, Leticia

AU - Grell, Gilbert

AU - Guo, Meiyuan

AU - Hoyer, Chad E.

AU - Johansson, Marcus

AU - Keller, Sebastian

AU - Knecht, Stefan

AU - Kovačević, Goran

AU - Källman, Erik

AU - Li Manni, Giovanni

AU - Lundberg, Marcus

AU - Ma, Yingjin

AU - Mai, Sebastian

AU - Malhado, João Pedro

AU - Malmqvist, Per Åke

AU - Marquetand, Philipp

AU - Mewes, Stefanie A.

AU - Norell, Jesper

AU - Olivucci, Massimo

AU - Oppel, Markus

AU - Phung, Quan Manh

AU - Pierloot, Kristine

AU - Plasser, Felix

AU - Reiher, Markus

AU - Sand, Andrew M.

AU - Schapiro, Igor

AU - Sharma, Prachi

AU - Stein, Christopher J.

AU - Sørensen, Lasse Kragh

AU - Truhlar, Donald G.

AU - Ugandi, Mihkel

AU - Ungur, Liviu

AU - Valentini, Alessio

AU - Vancoillie, Steven

AU - Veryazov, Valera

AU - Weser, Oskar

AU - Wesołowski, Tomasz A.

AU - Widmark, Per Olof

AU - Wouters, Sebastian

AU - Zech, Alexander

AU - Zobel, J. Patrick

AU - Lindh, Roland

PY - 2019/1/1

Y1 - 2019/1/1

N2 - In this Article we describe the OpenMolcas environment and invite the computational chemistry community to collaborate. The open-source project already includes a large number of new developments realized during the transition from the commercial MOLCAS product to the open-source platform. The paper initially describes the technical details of the new software development platform. This is followed by brief presentations of many new methods, implementations, and features of the OpenMolcas program suite. These developments include novel wave function methods such as stochastic complete active space self-consistent field, density matrix renormalization group (DMRG) methods, and hybrid multiconfigurational wave function and density functional theory models. Some of these implementations include an array of additional options and functionalities. The paper proceeds and describes developments related to explorations of potential energy surfaces. Here we present methods for the optimization of conical intersections, the simulation of adiabatic and nonadiabatic molecular dynamics, and interfaces to tools for semiclassical and quantum mechanical nuclear dynamics. Furthermore, the Article describes features unique to simulations of spectroscopic and magnetic phenomena such as the exact semiclassical description of the interaction between light and matter, various X-ray processes, magnetic circular dichroism, and properties. Finally, the paper describes a number of built-in and add-on features to support the OpenMolcas platform with postcalculation analysis and visualization, a multiscale simulation option using frozen-density embedding theory, and new electronic and muonic basis sets.

AB - In this Article we describe the OpenMolcas environment and invite the computational chemistry community to collaborate. The open-source project already includes a large number of new developments realized during the transition from the commercial MOLCAS product to the open-source platform. The paper initially describes the technical details of the new software development platform. This is followed by brief presentations of many new methods, implementations, and features of the OpenMolcas program suite. These developments include novel wave function methods such as stochastic complete active space self-consistent field, density matrix renormalization group (DMRG) methods, and hybrid multiconfigurational wave function and density functional theory models. Some of these implementations include an array of additional options and functionalities. The paper proceeds and describes developments related to explorations of potential energy surfaces. Here we present methods for the optimization of conical intersections, the simulation of adiabatic and nonadiabatic molecular dynamics, and interfaces to tools for semiclassical and quantum mechanical nuclear dynamics. Furthermore, the Article describes features unique to simulations of spectroscopic and magnetic phenomena such as the exact semiclassical description of the interaction between light and matter, various X-ray processes, magnetic circular dichroism, and properties. Finally, the paper describes a number of built-in and add-on features to support the OpenMolcas platform with postcalculation analysis and visualization, a multiscale simulation option using frozen-density embedding theory, and new electronic and muonic basis sets.

U2 - 10.1021/acs.jctc.9b00532

DO - 10.1021/acs.jctc.9b00532

M3 - Review article

C2 - 31509407

AN - SCOPUS:85071085635

SN - 1549-9618

VL - 15

SP - 5925

EP - 5964

JO - Journal of Chemical Theory and Computation

JF - Journal of Chemical Theory and Computation

IS - 11

ER -

OpenMolcas: From Source Code to Insight

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