| dc.date.accessioned | 2015-10-21T22:51:28Z | |
| dc.date.available | 2015-10-21T22:51:28Z | |
| dc.identifier.uri | http://hdl.handle.net/11256/478 | |
| dc.description | http://www.msg.ameslab.gov/gamess/documentation.html | |
| dc.description.abstract | "GAMESS is a program for ab initio molecular quantum chemistry. Briefly, GAMESS can compute SCF wavefunctions ranging from RHF, ROHF, UHF, GVB, and MCSCF. Correlation corrections to these SCF wavefunctions include Configuration Interaction, second order perturbation Theory, and Coupled-Cluster approaches, as well as the Density Functional Theory approximation. Excited states can be computed by CI, EOM, or TD-DFT procedures. Nuclear gradients are available, for automatic geometry optimization, transition state searches, or reaction path following. Computation of the energy hessian permits prediction of vibrational frequencies, with IR or Raman intensities. Solvent effects may be modeled by the discrete Effective Fragment potentials, or continuum models such as the Polarizable Continuum Model. Numerous relativistic computations are available, including infinite order two component scalar relativity corrections, with various spin-orbit coupling options. The Fragment Molecular Orbital method permits use of many of these sophisticated treatments to be used on very large systems, by dividing the computation into small fragments. Nuclear wavefunctions can also be computed, in VSCF, or with explicit treatment of nuclear orbitals by the NEO code." - http://www.msg.ameslab.gov/gamess/capabilities.html | |
| dc.language | Eng | |
| dc.publisher | Gordon Research Group Ames Laboratory/Iowa State University | |
| dc.relation.hasversion | 20141205 | |
| dc.relation.isreferencedby | "General Atomic and Molecular Electronic Structure System" M.W.Schmidt, K.K.Baldridge, J.A.Boatz, S.T.Elbert, M.S.Gordon, J.H.Jensen, S.Koseki, N.Matsunaga, K.A.Nguyen, S.Su, T.L.Windus, M.Dupuis, J.A.Montgomery J. Comput. Chem., 14, 1347-1363(1993). | |
| dc.relation.isreferencedby | "Advances in electronic structure theory: GAMESS a decade later" M.S.Gordon, M.W.Schmidt pp. 1167-1189, in "Theory and Applications of Computational Chemistry: the first forty years" C.E.Dykstra, G.Frenking, K.S.Kim, G.E.Scuseria (editors), Elsevier, Amsterdam, 2005. | |
| dc.rights | None stated | |
| dc.subject | quantum chemistry | |
| dc.subject.other | materials science | |
| dc.title | GAMESS | |
| dc.type | DFT | |
| dcterms.creator | Mark Gordon | |
| dcterms.creator | Gordon Research Group Ames Laboratory/Iowa State University | |
| cc.contact | https://groups.google.com/forum/#!contactowner/gamess | |
| cc.cost | Free | |
| cc.distribution | download | |
| cc.landingPageURL | http://www.msg.ameslab.gov/gamess/index.html | |
| cc.opSystemName | Windows | |
| cc.opSystemName | Linux | |
| cc.opSystemName | OSX | |
| cc.scale | Electronic scale | |
| cc.versionDate | 2014 | |
