T
Thomas Bondo Pedersen
Researcher at University of Oslo
Publications - 93
Citations - 9880
Thomas Bondo Pedersen is an academic researcher from University of Oslo. The author has contributed to research in topics: Coupled cluster & Cholesky decomposition. The author has an hindex of 39, co-authored 84 publications receiving 8803 citations. Previous affiliations of Thomas Bondo Pedersen include University of Santiago de Compostela & Uppsala University.
Papers
More filters
Journal ArticleDOI
Software news and update MOLCAS 7 : The Next Generation
Francesco Aquilante,Luca De Vico,Nicolas Ferré,Giovanni Ghigo,Per-Åke Malmqvist,Pavel Neogrády,Thomas Bondo Pedersen,Michal Pitonak,Michal Pitonak,Markus Reiher,Björn O. Roos,Luis Serrano-Andrés,Miroslav Urban,Valera Veryazov,Roland Lindh +14 more
TL;DR: The Cholesky decomposition method applied to some quantum chemical methods is described, and the ElectroStatic Potential Fitted scheme, a version of a quantum mechanics/molecular mechanics hybrid method implemented in MOLCAS, is described and discussed.
Journal ArticleDOI
Molcas 8: New capabilities for multiconfigurational quantum chemical calculations across the periodic table.
Francesco Aquilante,Jochen Autschbach,Rebecca K. Carlson,Liviu F. Chibotaru,Mickaël G. Delcey,Luca De Vico,Ignacio Fdez. Galván,Nicolas Ferré,Luis Manuel Frutos,Laura Gagliardi,Marco Garavelli,Angelo Giussani,Chad E. Hoyer,Giovanni Li Manni,Hans Lischka,Dongxia Ma,Per-Åke Malmqvist,Thomas Müller,Artur Nenov,Massimo Olivucci,Thomas Bondo Pedersen,Daoling Peng,Felix Plasser,Ben Pritchard,Markus Reiher,Ivan Rivalta,Igor Schapiro,Igor Schapiro,Javier Segarra-Martí,Michael Stenrup,Donald G. Truhlar,Liviu Ungur,Alessio Valentini,Steven Vancoillie,Valera Veryazov,Victor P. Vysotskiy,Oliver Weingart,Felipe Zapata,Roland Lindh +38 more
TL;DR: The report includes the description of a computational machinery for nonlinear optical spectroscopy through an interface to the QM/MM package Cobramm.
Journal ArticleDOI
The Dalton quantum chemistry program system
Kestutis Aidas,Celestino Angeli,Keld L. Bak,Vebjørn Bakken,Radovan Bast,Linus Boman,Ove Christiansen,Renzo Cimiraglia,Sonja Coriani,Pål Dahle,Erik K. Dalskov,Ulf Ekström,Thomas Enevoldsen,Janus J. Eriksen,Patrick Ettenhuber,Berta Fernández,Lara Ferrighi,Heike Fliegl,Luca Frediani,Kasper Hald,Asger Halkier,Christof Hättig,Hanne Heiberg,Trygve Helgaker,Alf C. Hennum,Hinne Hettema,Eirik Hjertenæs,Stine Høst,Ida-Marie Høyvik,Maria Francesca Iozzi,Brannislav Jansik,Hans-Jørgen Aa. Jensen,Dan Jonsson,Poul Jørgensen,Johanna Kauczor,Sheela Kirpekar,Thomas Kjærgaard,Wim Klopper,Stefan Knecht,Rika Kobayashi,Henrik Koch,Jacob Kongsted,Andreas Krapp,Kasper Kristensen,Andrea Ligabue,Ola B. Lutnæs,Juan Ignacio Melo,Kurt V. Mikkelsen,Rolf H. Myhre,Christian Neiss,Christian B. Nielsen,Patrick Norman,Jeppe Olsen,Jógvan Magnus Haugaard Olsen,Anders Osted,Martin J. Packer,Filip Pawłowski,Thomas Bondo Pedersen,Patricio Federico Provasi,Simen Reine,Zilvinas Rinkevicius,Torgeir A. Ruden,Kenneth Ruud,Vladimir V. Rybkin,Paweł Sałek,Claire C. M. Samson,Alfredo Sánchez de Merás,Trond Saue,Stephan P. A. Sauer,Bernd Schimmelpfennig,Kristian Sneskov,Arnfinn Hykkerud Steindal,Kristian O. Sylvester-Hvid,Peter R. Taylor,Andrew M. Teale,Erik I. Tellgren,David P. Tew,Andreas J. Thorvaldsen,Lea Thøgersen,Olav Vahtras,Mark A. Watson,David J. D. Wilson,Marcin Ziółkowski,Hans Ågren +83 more
TL;DR: Dalton is a powerful general‐purpose program system for the study of molecular electronic structure at the Hartree–Fock, Kohn–Sham, multiconfigurational self‐consistent‐field, Møller–Plesset, configuration‐interaction, and coupled‐cluster levels of theory.
Dalton, a molecular electronic structure program
Hans Ågren,David John. Wilson,Olav Vahtras,Peter R. Taylor,Kristian O. Sylvester-Hvid,Bernd Schimmelpfennig,Stephan P. A. Sauer,Trond Saue,A. M. J. Sanchez de Meras,Paweł Sałek,Kenneth Ruud,Torgeir A. Ruden,Elias Rudberg,Zilvinas Rinkevicius,Thomas Bondo Pedersen,Martin J. Packer,Jeppe Olsen,Patrick Norman,Kurt V. Mikkelsen,Ola B. Lutnæs,Henrik Koch,Rika Kobayashi,Wim Klopper,Sheela Kirpekar,P. Joergensen,D. Jonsson,H. J. Aa. Jensen,Hinne Hettema,Trygve Helgaker,H. Heiberg,Asger Halkier,Kasper Hald,C. Haettig,Berta Fernández,Thomas Enevoldsen,E. K. Dalskov,Pål Dahle,Sonia Coriani,Renzo Cimiraglia,Ove Christiansen,Vebjørn Bakken,Keld L. Bak,Celestino Angeli +42 more
Journal ArticleDOI
Reduced scaling in electronic structure calculations using Cholesky decompositions
TL;DR: In this paper, the authors demonstrate that substantial computational savings can be achieved in electronic structure calculations using a Cholesky decomposition of the two-electron integral matrix using a direct O(N 2 ) procedure.