Gaussian 94 Information

CompChem Main Page


What is Gaussian 94?

Gaussian 94 (abbreviated G94) is a high-powered computational tool. It is most often run on a workstation cluster or a supercomputer because of the computational expense associated with the level of accuracy it produces. Gaussian 94 does several types of calculations, including single-point energy calculation, geometry optimization, transition state location, vibrational frequency calculation, thermochemical analysis, excited states calculation, including solvent effect, and calculaton of electrostatic potential-derived charges and polarizabilities. An extremely wide variety of ab initio and semi-empirical methods are supported.

In this course we will only encounter Gaussian briefly, but the readings here (as well as other resources) can give you a good basic understanding of Gaussian.

How is G94 used?

Gaussian 94 requires the submission of a text file giving the type of job to be run and the molecule. When the run is completed, Gaussian returns a text file with the output in alphanumeric format. These output files can be quite long and complex. We will learn to interpret the relevant parts of them; visualization tools are available to generate graphical renderings of Gaussian's output.

Why G94?

While the possibility of using a supercomputer may be impressive, the complexity of Gaussian's input and output files may seem daunting at first. A graphical-interface molecule builder seems like a comforting resort at this point; but there are distinct advantages to using G94 which outweigh the initial inconveniences of a textual interface. These include the ability to follow reaction pathways and scan potential energies in one job submission (rather than tedious and repetitive single point energy submissions to a graphical program) as well as the higher level of accuracy, greater choice in the theory used, and far more freedom in molecule construction.

Back to top.


Developed by
Graphic of Shodor LogoThe Shodor Education Foundation, Inc.
Copyright © 1998
Last Modified:
Questions or comments about this page should be directed to gotwals@shodor.org