Accuracy and efficiency of atomic basis set methods versus plane wave calculations with ultrasoft pseudopotentials for DNA base molecules

by Pulay, P.; Saebo, S.; Malagoli, M.; Baker, J.

Recent results from Preuss et al. (J Comput Chem 2004, 25, 112) on DNA base molecules, obtained by plane wave density functional calculations using ultrasoft pseudopotentials, are compared with calculations using Gaussian basis sets. Bond lengths and angles agree closely, but dihedral angles and vibrational frequencies show significant differences. The Gaussian basis calculations are at least an order of magnitude more efficient than the plane wave/ultrasoft pseudopotential calculations at a similar level of accuracy; the advantage is even larger if the Fourier Transform Coulomb method is used. To obtain definite benchmark values, the geometries of the four DNA bases were optimized at the MP2 level with large basis sets, up to cc-pVQZ and aug-cc-pVTZ.

Journal
Journal of Computational Chemistry
Volume
26
Issue
6
Year
2005
Start Page
599-605
URL
https://dx.doi.org/10.1002/jcc.20196
ISBN/ISSN
1096-987X; 0192-8651
DOI
10.1002/jcc.20196