Fast evaluation of the Coulomb potential for electron densities using multipole accelerated resolution of identity approximation
Karlsruhe Institute of Technology
Abstract
A new computational approach is presented that allows for an accurate and efficient treatment of the electronic Coulomb term in density functional methods. This multipole accelerated resolution of identity for J (MARI-J) method partitions the Coulomb interactions into the near- and far-field parts. The calculation of the far-field part is performed by a straightforward application of the multipole expansions and the near-field part is evaluated employing expansion of molecular electron densities in atom-centered auxiliary basis sets (RI-J approximation). Compared to full RI-J calculations, up to 6.5-fold CPU time savings are reported for systems with about 1000 atoms without any significant loss of accuracy.…
Citation impact
- FWCI
- 9.94
- Percentile
- 100%
- References
- 34
Authors
3Topics & keywords
- Multipole expansion
- Coulomb
- Fast multipole method
- Basis function
- Basis (linear algebra)
- Field (mathematics)
- Resolution (logic)
- Physics