Counterpoise Correct¶

Code author: Robert M. Parrish

cp(name[, func, check_bsse, molecule])[source]¶

The cp function computes counterpoise-corrected two-body interaction energies for complexes composed of arbitrary numbers of monomers.

Aliases :	counterpoise_correct(), counterpoise_correction()
Returns:	(float) Counterpoise-corrected interaction energy in Hartrees.
Psi variables:

Caution

Some features are not yet implemented. Buy a developer a coffee.

Parameters:

name (string) –
'scf' || 'ccsd(t)' || etc.

First argument, usually unlabeled. Indicates the computational method to be applied to the molecule. May be any valid argument to energy(); however, SAPT is not appropriate.
func (function) –
$\Rightarrow$ energy $\Leftarrow$ || optimize || cbs

Indicates the type of calculation to be performed on the molecule and each of its monomers. The default performs a single-point energy('name'), while optimize perfoms a geometry optimization on each system, and cbs performs a compound single-point energy. If a nested series of python functions is intended (see Function Intercalls), use keyword cp_func instead of func.
check_bsse (boolean) –
'on' || $\Rightarrow$ 'off' $\Leftarrow$

Indicates whether to additionally compute un-counterpoise corrected monomers and thus obtain an estimate for the basis set superposition error.
molecule (molecule) –
h2o || etc.

The target molecule, if not the last molecule defined.

Examples :

>>> # [1] counterpoise-corrected mp2 interaction energy
>>> cp('df-mp2')

n_body(name[, func, bsse, max_n_body, do_total, external, external_monomers, molecule])[source]¶