Mark S. Gordon

Quantum Chemistry Common Driver and Databases (QCDB) and Quantum Chemistry Engine (QCE<scp>ngine</scp>): Automation and interoperability among computational chemistry programs

Rollin A. King, John F. Stanton, Mark S. Gordon, Theresa L. Windus, C. David Sherrill, Lori A. Burns, Daniel G. A. Smith, Annabelle Lolinco, Zachary L. Glick, Jiyoung Lee, Asem Alenaizan, Taylor Barnes, Carlos H. Borca, Roberto Di Remigio, David Dotson, Sebastian Ehlert, Alexander G. Heide, Michael F. Herbst, Jan Hermann, Colton B. Hicks, Joshua T. Horton, Adrian G. Hurtado, Peter Kraus, Holger Kruse, Sebastian J. R. Lee, Jonathon P. Misiewicz, Levi N. Naden, Farhad Ramezanghorbani, Maximilian Scheurer, Jeffrey B. Schriber, Andrew C. Simmonett, Johannes Steinmetzer, Jeffrey Wagner, Logan Ward, Matthew Welborn, Doaa Altarawy, Jamshed Anwar, John D. Chodera, Andreas Dreuw, Heather J. Kulik, Fang Liu, Todd J. Martı́nez, Devin A. Matthews, Henry F. Schaefer, Jiřı́ Šponer, Justin M. Turney, Lee‐Ping Wang, Nuwan De Silva (2021). Quantum Chemistry Common Driver and Databases (QCDB) and Quantum Chemistry Engine (QCE<scp>ngine</scp>): Automation and interoperability among computational chemistry programs. , 155(20), DOI: https://doi.org/10.1063/5.0059356.