CamCASP/Notes/1
Revision as of 15:41, 20 October 2008 by import>Ajs1
CamCASP => Notes => Rotating integrals
1. Rotating integrals
CamCASP allows the User fine control over integrals and the density-fitting. This can be used to save time (and also debug) during certain types of calculations. So, if you need to evaluate integrals like the density-overlap integral for many dimer configurations, here are two ways of doing it:
- Redoing the density-fitting for each dimer configuration
Set DF Redo-df-on-rotation End Begin DF-ints Int Type OVRL Desc XAXB Print End Begin E1exch NO-E1exch Overlap integrals without constraints End Edit CD Rotate by 90 degrees about 0.0 0.0 1.0 Show geometry and MOs Update MOs & Geom Show geometry & MOs End Begin DF-ints Int Type OVRL Desc XAXB Print End Begin E1exch NO-E1exch Overlap integrals without constraints End
This works as follows:
- We first tell the code to repeat density-fitting even if all that has happened is that a molecule has been rotated.
- Next you could perform the density-fitting for the two molecules, but it will be automatically done when the DF-INTS is called.
- Use the DF-INTegral module to calculate the integral. Here is it the overlap integral needed to calculate the density-overlap. The density-overlap is a special kind of integral that is not calculated in this module.
- Use the E1EXCH module to calculate the density-overlap integrals. The NO-E1exch command prevents the calculation of the first-order exchange energy which is calculated by default.
- Now rotate one of the molecules (CD). The UPDATE MOs & GEOM command must be used to update the molecule geometry and the molecular orbitals.
- You could re-do the density-fitting for the rotated molecule (CD), but it will be automatically done by DF-INTS...
- Recalculate the overlap integrals, but this time include the ROTATE option that will rotate them so as to be consistent with the previously calculated density-fitting solution.
- And repeat the calculation of the denisty-overlap integrals.
This is a wasteful procedure. A better way is as follows...
- Doing the density-fitting only once & rotating integrals
Set DF Redo-df-on-rotation False End Begin DF-ints Int Type OVRL Desc XAXB Print End Begin E1exch NO-E1exch Overlap integrals without constraints End Edit CD Rotate by 90 degrees about 0.0 0.0 1.0 Show geometry and MOs Update Show geometry & MOs End Begin DF-ints Int Type OVRL Desc XAXB Print Rotate End Begin E1exch NO-E1exch Overlap integrals without constraints End
This works as follows:
- We first stop the code from repeating density-fitting if all that has happened is that a molecule has been rotated.
- Next you could perform the density-fitting for the two molecules, but it will be automatically done when the DF-INTS is called.
- Use the DF-INTegral module to calculate the integral. Here is it the overlap integral needed to calculate the density-overlap. The density-overlap is a special kind of integral that is not calculated in this module.
- Use the E1EXCH module to calculate the density-overlap integrals. The NO-E1exch command prevents the calculation of the first-order exchange energy which is calculated by default.
- Now rotate one of the molecules (CD). The UPDATE command must be used to update the molecule geometry. But do not update the molecular orbitals (i.e., don't use UPDATE MOs).
- Recalculate the overlap integrals, but this time include the ROTATE option that will rotate them so as to be consistent with the previously calculated density-fitting solution.
- And repeat the calculation of the denisty-overlap integrals.
--alston 18:39, 17 October 2008 (BST)