NWChem

NWChem
Developer(s)Pacific Northwest National Laboratory
Stable release
7.2.3 / August 27, 2024
Repositoryhttps://github.com/nwchemgit/nwchem
Written inFortran
Operating systemLinux, FreeBSD, Unix and like operating systems, Microsoft Windows, Mac OS X
TypeComputational Chemistry
LicenseEducational Community License 2.0
Websitehttps://nwchemgit.github.io/

NWChem is an ab initio computational chemistry software package which includes quantum chemical and molecular dynamics functionality.[1][2][3][4] It was designed to run on high-performance parallel supercomputers as well as conventional workstation clusters. It aims to be scalable both in its ability to treat large problems efficiently, and in its usage of available parallel computing resources. NWChem has been developed by the Molecular Sciences Software group of the Theory, Modeling & Simulation program of the Environmental Molecular Sciences Laboratory (EMSL) at the Pacific Northwest National Laboratory (PNNL). The early implementation was funded by the EMSL Construction Project.

NWChem is currently being redesigned and reimplemented for exascale computing platforms (NWChemEx [5]).

  1. ^ Aprà, E.; Bylaska, E. J.; de Jong, W. A.; Govind, N.; Kowalski, K.; Straatsma, T. P.; Valiev, M.; van Dam, H. J. J.; Alexeev, Y.; Anchell, J.; Anisimov, V. (2020-05-14). "NWChem: Past, present, and future". The Journal of Chemical Physics. 152 (18): 184102. arXiv:2004.12023. doi:10.1063/5.0004997. hdl:10023/23151. ISSN 0021-9606. PMID 32414274.
  2. ^ Valiev, M.; Bylaska, E.J.; Govind, N.; Kowalski, K.; Straatsma, T.P.; Van Dam, H.J.J.; Wang, D.; Nieplocha, J.; Aprà, E.; Windus, T. L.; De Jong, W. A. (2010). "NWChem: A comprehensive and scalable open-source solution for large scale molecular simulations". Computer Physics Communications. 181 (9): 1477–1489. Bibcode:2010CoPhC.181.1477V. doi:10.1016/j.cpc.2010.04.018.
  3. ^ Kendall, Ricky A.; Aprà, Edoardo; Bernholdt, David E.; Bylaska, Eric J.; Dupuis, Michel; Fann, George I.; Harrison, Robert J.; Ju, Jialin; Nichols, Jeffrey A.; Nieplocha, Jarek; Straatsma, T. P.; Windus, Theresa L.; Wong, Adrian T. (2000). "High performance computational chemistry: an overview of NWChem a distributed parallel application". Computer Physics Communications. 128 (1–2): 260–283. Bibcode:2000CoPhC.128..260K. doi:10.1016/S0010-4655(00)00065-5.
  4. ^ Authors and Contributors listed in version 6.5: E. Apra, E. J. Bylaska, W. A. de Jong, N. Govind, K. Kowalski, T. P. Straatsma, M. Valiev, H. J. J. van Dam, D. Wang, T. L. Windus, J. Hammond, J. Autschbach, K. Bhaskaran-Nair, J. Brabec, K. Lopata, S. Krishnamoorthy, W. Ma, M. Klemm, O. Villa, Y. Chen, V. Anisimov, F. Aquino, S. Hirata, M. T. Hackler, T. Risthaus, M. Malagoli, A. Marenich, A. Otero-de-la-Roza, J. Mullin, P. Nichols, R. Peverati, J. Pittner, Y. Zhao, P.-D. Fan, A. Fonari, R. J. Harrison, M. Dupuis, D. Silverstein, D. M. A. Smith, J. Nieplocha, V. Tipparaju, M. Krishnan, B. E. Van Kuiken, A. Vazquez-Mayagoitia, L. Jensen, M. Swart, Q. Wu, T. Van Voorhis, A. A. Auer, M. Nooijen, L. D. Crosby, E. Brown, G. Cisneros, G. I. Fann, H. Fruchtl, J. Garza, K. Hirao, R. A. Kendall, J. A. Nichols, K. Tsemekhman, K. Wolinski, J. Anchell, D. E. Bernholdt, P. Borowski, T. Clark, D. Clerc, H. Dachsel, M. J. O. Deegan, K. Dyall, D. Elwood, E. Glendening, M. Gutowski, A. C. Hess, J. Jaffe, B. G. Johnson, J. Ju, R. Kobayashi, R. Kutteh, Z. Lin, R. Littlefield, X. Long, B. Meng, T. Nakajima, S. Niu, L. Pollack, M. Rosing, K. Glaesemann, G. Sandrone, M. Stave, H. Taylor, G. Thomas, J. H. van Lenthe, A. T. Wong, Z. Zhang. https://nwchemgit.github.io/Developer_Team.html#authors-and-contributors
  5. ^ "NWChemEx". 2021. Retrieved 10 November 2021.