Roadmap on methods and software for electronic structure based simulations in chemistry and materials

Volker Blum; Ryoji Asahi; Jochen Autschbach; Christoph Bannwarth; Gustav Bihlmayer; Stefan Blügel; Lori A. Burns; T. Daniel Crawford; William Dawson; Wibe Albert de Jong; Claudia Draxl; Claudia Filippi; Luigi Genovese; Paolo Giannozzi; Niranjan Govind; Sharon Hammes-Schiffer; Jeff R. Hammond; Benjamin Hourahine; Anubhav Jain; Yosuke Kanai; Paul R.C. Kent; Ask Hjorth Larsen; Susi Lehtola; Xiaosong Li; Roland Lindh; Satoshi Maeda; Nancy Makri; Jonathan Moussa; Takahito Nakajima; Jessica A. Nash; Micael J.T. Oliveira; Pansy D. Patel; Giovanni Pizzi; Geoffrey Pourtois; Benjamin P. Pritchard; Eran Rabani; Markus Reiher; Lucia Reining; Xinguo Ren; Mariana Rossi; H. Bernhard Schlegel; Nicola Seriani; Lyudmila V. Slipchenko; Alexander Thom; Edward F. Valeev; Benoit Van Troeye; Lucas Visscher; Vojtěch Vlček; Hans Joachim Werner; David B. Williams-Young; Theresa Windus

doi:10.1088/2516-1075/ad48ec

Roadmap on methods and software for electronic structure based simulations in chemistry and materials

Volker Blum^*, Ryoji Asahi, Jochen Autschbach, Christoph Bannwarth, Gustav Bihlmayer, Stefan Blügel, Lori A. Burns, T. Daniel Crawford, William Dawson, Wibe Albert de Jong, Claudia Draxl, Claudia Filippi, Luigi Genovese, Paolo Giannozzi, Niranjan Govind, Sharon Hammes-Schiffer, Jeff R. Hammond, Benjamin Hourahine, Anubhav Jain, Yosuke KanaiPaul R.C. Kent, Ask Hjorth Larsen, Susi Lehtola, Xiaosong Li, Roland Lindh, Satoshi Maeda, Nancy Makri, Jonathan Moussa, Takahito Nakajima, Jessica A. Nash, Micael J.T. Oliveira, Pansy D. Patel, Giovanni Pizzi, Geoffrey Pourtois, Benjamin P. Pritchard, Eran Rabani, Markus Reiher, Lucia Reining, Xinguo Ren, Mariana Rossi, H. Bernhard Schlegel, Nicola Seriani, Lyudmila V. Slipchenko, Alexander Thom, Edward F. Valeev, Benoit Van Troeye, Lucas Visscher, Vojtěch Vlček, Hans Joachim Werner, David B. Williams-Young, Theresa Windus^*

^*Corresponding author for this work

School of Chemistry

Research output: Contribution to journal › Review article › peer-review

3 Scopus citations

Abstract

This Roadmap article provides a succinct, comprehensive overview of the state of electronic structure (ES) methods and software for molecular and materials simulations. Seventeen distinct sections collect insights by 51 leading scientists in the field. Each contribution addresses the status of a particular area, as well as current challenges and anticipated future advances, with a particular eye towards software related aspects and providing key references for further reading. Foundational sections cover density functional theory and its implementation in real-world simulation frameworks, Green’s function based many-body perturbation theory, wave-function based and stochastic ES approaches, relativistic effects and semiempirical ES theory approaches. Subsequent sections cover nuclear quantum effects, real-time propagation of the ES, challenges for computational spectroscopy simulations, and exploration of complex potential energy surfaces. The final sections summarize practical aspects, including computational workflows for complex simulation tasks, the impact of current and future high-performance computing architectures, software engineering practices, education and training to maintain and broaden the community, as well as the status of and needs for ES based modeling from the vantage point of industry environments. Overall, the field of ES software and method development continues to unlock immense opportunities for future scientific discovery, based on the growing ability of computations to reveal complex phenomena, processes and properties that are determined by the make-up of matter at the atomic scale, with high precision.

Original language	English
Article number	042501
Journal	Electronic Structure
Volume	6
Issue number	4
DOIs	https://doi.org/10.1088/2516-1075/ad48ec
State	Published - 1 Dec 2024

Funding

Funders	Funder number
Molecular Sciences Software Institute
National Nuclear Security Administration
National Center of Competence in Research Materials’ Revolution: Computational Design and Discovery of Novel Materials
Pacific Northwest National Laboratory
Max-Planck-Gesellschaft
Ministry of Culture and Science of the German State of North Rhine-Westphalia
Office of Science
Battelle
NCCR Catalysis
Ministry of Education, Culture, Sports, Science and Technology
National Science Foundation	CHE-1954348, CHE-1955302, 1450280, CHE-1800505, CHE-2102639, CHE-2136142, OAC-2209858, CHE-2154346, CHE-2154753, CHE-1954894, CHE1856437, ACI-1449723
Riken	hp200179
Ames National Laboratory	DE-AC02-07CH11358
Deutsche Forschungsgemeinschaft	182087777—SFB 951, 182087777, CHE-2152633, SFB 951
Realization of innovative light energy conversion materials	JPMXP1020210317
Division of Materials Sciences and Engineering	DE-AC02-05-CH11231
Elon University	17-SC-20-SC, H2020-INFRAEDI-2018, 101093378, GA 824143
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung	205602
Research Council of Finland	353749, 350282
Horizon 2020 Framework Programme	957213, 951786, 957189
Chemical Sciences, Geosciences, and Biosciences Division	FWP 72684
Japan Science and Technology Agency	JST-ERATO JPMJER1903
Advanced Scientific Computing Research	DE-SC0022263
U.S. Department of Energy	DE-AC05-76RL1830
Japan Society for the Promotion of Science	21H05560, 23H04105
Basic Energy Sciences	DE-SC0021100, OAC-2103717, DE-SC0006863

Keywords

electronic structure
future directions
software

Access to Document

10.1088/2516-1075/ad48ec

Cite this

Blum, V., Asahi, R., Autschbach, J., Bannwarth, C., Bihlmayer, G., Blügel, S., Burns, L. A., Crawford, T. D., Dawson, W., de Jong, W. A., Draxl, C., Filippi, C., Genovese, L., Giannozzi, P., Govind, N., Hammes-Schiffer, S., Hammond, J. R., Hourahine, B., Jain, A., ... Windus, T. (2024). Roadmap on methods and software for electronic structure based simulations in chemistry and materials. Electronic Structure, 6(4), Article 042501. https://doi.org/10.1088/2516-1075/ad48ec

@article{3b3923f99e9b42379b3a8ca3e82e4e1e,

title = "Roadmap on methods and software for electronic structure based simulations in chemistry and materials",

abstract = "This Roadmap article provides a succinct, comprehensive overview of the state of electronic structure (ES) methods and software for molecular and materials simulations. Seventeen distinct sections collect insights by 51 leading scientists in the field. Each contribution addresses the status of a particular area, as well as current challenges and anticipated future advances, with a particular eye towards software related aspects and providing key references for further reading. Foundational sections cover density functional theory and its implementation in real-world simulation frameworks, Green{\textquoteright}s function based many-body perturbation theory, wave-function based and stochastic ES approaches, relativistic effects and semiempirical ES theory approaches. Subsequent sections cover nuclear quantum effects, real-time propagation of the ES, challenges for computational spectroscopy simulations, and exploration of complex potential energy surfaces. The final sections summarize practical aspects, including computational workflows for complex simulation tasks, the impact of current and future high-performance computing architectures, software engineering practices, education and training to maintain and broaden the community, as well as the status of and needs for ES based modeling from the vantage point of industry environments. Overall, the field of ES software and method development continues to unlock immense opportunities for future scientific discovery, based on the growing ability of computations to reveal complex phenomena, processes and properties that are determined by the make-up of matter at the atomic scale, with high precision.",

keywords = "electronic structure, future directions, software",

author = "Volker Blum and Ryoji Asahi and Jochen Autschbach and Christoph Bannwarth and Gustav Bihlmayer and Stefan Bl{\"u}gel and Burns, {Lori A.} and Crawford, {T. Daniel} and William Dawson and {de Jong}, {Wibe Albert} and Claudia Draxl and Claudia Filippi and Luigi Genovese and Paolo Giannozzi and Niranjan Govind and Sharon Hammes-Schiffer and Hammond, {Jeff R.} and Benjamin Hourahine and Anubhav Jain and Yosuke Kanai and Kent, {Paul R.C.} and Larsen, {Ask Hjorth} and Susi Lehtola and Xiaosong Li and Roland Lindh and Satoshi Maeda and Nancy Makri and Jonathan Moussa and Takahito Nakajima and Nash, {Jessica A.} and Oliveira, {Micael J.T.} and Patel, {Pansy D.} and Giovanni Pizzi and Geoffrey Pourtois and Pritchard, {Benjamin P.} and Eran Rabani and Markus Reiher and Lucia Reining and Xinguo Ren and Mariana Rossi and Schlegel, {H. Bernhard} and Nicola Seriani and Slipchenko, {Lyudmila V.} and Alexander Thom and Valeev, {Edward F.} and {Van Troeye}, Benoit and Lucas Visscher and Vojt{\v e}ch Vl{\v c}ek and Werner, {Hans Joachim} and Williams-Young, {David B.} and Theresa Windus",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). Published by IOP Publishing Ltd.",

year = "2024",

month = dec,

day = "1",

doi = "10.1088/2516-1075/ad48ec",

language = "אנגלית",

volume = "6",

journal = "Electronic Structure",

issn = "2516-1075",

publisher = "IOP Publishing Ltd.",

number = "4",

}

Blum, V, Asahi, R, Autschbach, J, Bannwarth, C, Bihlmayer, G, Blügel, S, Burns, LA, Crawford, TD, Dawson, W, de Jong, WA, Draxl, C, Filippi, C, Genovese, L, Giannozzi, P, Govind, N, Hammes-Schiffer, S, Hammond, JR, Hourahine, B, Jain, A, Kanai, Y, Kent, PRC, Larsen, AH, Lehtola, S, Li, X, Lindh, R, Maeda, S, Makri, N, Moussa, J, Nakajima, T, Nash, JA, Oliveira, MJT, Patel, PD, Pizzi, G, Pourtois, G, Pritchard, BP, Rabani, E, Reiher, M, Reining, L, Ren, X, Rossi, M, Schlegel, HB, Seriani, N, Slipchenko, LV, Thom, A, Valeev, EF, Van Troeye, B, Visscher, L, Vlček, V, Werner, HJ, Williams-Young, DB & Windus, T 2024, 'Roadmap on methods and software for electronic structure based simulations in chemistry and materials', Electronic Structure, vol. 6, no. 4, 042501. https://doi.org/10.1088/2516-1075/ad48ec

TY - JOUR

T1 - Roadmap on methods and software for electronic structure based simulations in chemistry and materials

AU - Blum, Volker

AU - Asahi, Ryoji

AU - Autschbach, Jochen

AU - Bannwarth, Christoph

AU - Bihlmayer, Gustav

AU - Blügel, Stefan

AU - Burns, Lori A.

AU - Crawford, T. Daniel

AU - Dawson, William

AU - de Jong, Wibe Albert

AU - Draxl, Claudia

AU - Filippi, Claudia

AU - Genovese, Luigi

AU - Giannozzi, Paolo

AU - Govind, Niranjan

AU - Hammes-Schiffer, Sharon

AU - Hammond, Jeff R.

AU - Hourahine, Benjamin

AU - Jain, Anubhav

AU - Kanai, Yosuke

AU - Kent, Paul R.C.

AU - Larsen, Ask Hjorth

AU - Lehtola, Susi

AU - Li, Xiaosong

AU - Lindh, Roland

AU - Maeda, Satoshi

AU - Makri, Nancy

AU - Moussa, Jonathan

AU - Nakajima, Takahito

AU - Nash, Jessica A.

AU - Oliveira, Micael J.T.

AU - Patel, Pansy D.

AU - Pizzi, Giovanni

AU - Pourtois, Geoffrey

AU - Pritchard, Benjamin P.

AU - Rabani, Eran

AU - Reiher, Markus

AU - Reining, Lucia

AU - Ren, Xinguo

AU - Rossi, Mariana

AU - Schlegel, H. Bernhard

AU - Seriani, Nicola

AU - Slipchenko, Lyudmila V.

AU - Thom, Alexander

AU - Valeev, Edward F.

AU - Van Troeye, Benoit

AU - Visscher, Lucas

AU - Vlček, Vojtěch

AU - Werner, Hans Joachim

AU - Williams-Young, David B.

AU - Windus, Theresa

PY - 2024/12/1

Y1 - 2024/12/1

N2 - This Roadmap article provides a succinct, comprehensive overview of the state of electronic structure (ES) methods and software for molecular and materials simulations. Seventeen distinct sections collect insights by 51 leading scientists in the field. Each contribution addresses the status of a particular area, as well as current challenges and anticipated future advances, with a particular eye towards software related aspects and providing key references for further reading. Foundational sections cover density functional theory and its implementation in real-world simulation frameworks, Green’s function based many-body perturbation theory, wave-function based and stochastic ES approaches, relativistic effects and semiempirical ES theory approaches. Subsequent sections cover nuclear quantum effects, real-time propagation of the ES, challenges for computational spectroscopy simulations, and exploration of complex potential energy surfaces. The final sections summarize practical aspects, including computational workflows for complex simulation tasks, the impact of current and future high-performance computing architectures, software engineering practices, education and training to maintain and broaden the community, as well as the status of and needs for ES based modeling from the vantage point of industry environments. Overall, the field of ES software and method development continues to unlock immense opportunities for future scientific discovery, based on the growing ability of computations to reveal complex phenomena, processes and properties that are determined by the make-up of matter at the atomic scale, with high precision.

AB - This Roadmap article provides a succinct, comprehensive overview of the state of electronic structure (ES) methods and software for molecular and materials simulations. Seventeen distinct sections collect insights by 51 leading scientists in the field. Each contribution addresses the status of a particular area, as well as current challenges and anticipated future advances, with a particular eye towards software related aspects and providing key references for further reading. Foundational sections cover density functional theory and its implementation in real-world simulation frameworks, Green’s function based many-body perturbation theory, wave-function based and stochastic ES approaches, relativistic effects and semiempirical ES theory approaches. Subsequent sections cover nuclear quantum effects, real-time propagation of the ES, challenges for computational spectroscopy simulations, and exploration of complex potential energy surfaces. The final sections summarize practical aspects, including computational workflows for complex simulation tasks, the impact of current and future high-performance computing architectures, software engineering practices, education and training to maintain and broaden the community, as well as the status of and needs for ES based modeling from the vantage point of industry environments. Overall, the field of ES software and method development continues to unlock immense opportunities for future scientific discovery, based on the growing ability of computations to reveal complex phenomena, processes and properties that are determined by the make-up of matter at the atomic scale, with high precision.

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KW - future directions

KW - software

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Roadmap on methods and software for electronic structure based simulations in chemistry and materials

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