.. | ||
org | ||
84.mo_localization.bats | ||
break_spatial_sym.irp.f | ||
debug_gradient_loc.irp.f | ||
debug_hessian_loc.irp.f | ||
EZFIO.cfg | ||
kick_the_mos.irp.f | ||
localization_sub.irp.f | ||
localization.irp.f | ||
NEED | ||
README.md |
Orbital localisation
To localize the MOs:
qp run localization
By default, the different orbital classes are automatically set by
splitting
the orbitales in the following classes:
- Core -> Core
- Active, doubly occupied -> Inactive
- Active, singly occupied -> Active
- Active, empty -> Virtual
- Deleted -> Deleted
The orbitals will be localized among each class, excpect the deleted
ones. If you want to choose another splitting, you can set
qp set mo_localization auto_mo_class false
and define the classes with
qp set_mo_class -c [] -a [] -v [] -i [] -d []
for more information
qp set_mo_class -q
We don’t care about the name of the
mo classes. The algorithm just localizes all the MOs of
a given class between them, for all the classes, except the deleted
MOs.
If you are using the last option don’t forget to reset the initial mo
classes
after the localization.
Before the localization, a kick is done for each mo class
(except the deleted ones) to break the MOs. This is done by
doing a given rotation between the MOs. This feature can be removed by
setting:
qp set localization kick_in_mos false
and the default angle for the rotation can be changed with:
qp set localization angle_pre_rot 1e-3 # or something else
After the localization, the MOs of each class (except the deleted
ones)
can be sorted between them using the diagonal elements of
the fock matrix with:
qp set localization sort_mos_by_e true
You can check the Hartree-Fock energy before/during/after the
localization
by putting (only for debugging):
qp set localization debug_hf true
Foster-Boys & Pipek-Mezey
Foster-Boys:
qp set localization localization_method boys
Pipek-Mezey:
qp set localization localization_method pipek
Break the spatial symmetry of the MOs
This program work exactly as the localization.
To break the spatial symmetry of the MOs:
qp run break_spatial_sym
The default angle for the rotations is too big for this kind of application, a value between 1e-3 and 1e-6 should break the spatial symmetry with just a small change in the energy:
qp set localization angle_pre_rot 1e-3
With or without hessian + trust region
With hessian + trust region
qp set localization localisation_use_hessian true
It uses the trust region algorithm with the diagonal of the hessian of the localization criterion with respect to the MO rotations.
Without the hessian and the trust region
qp set localization localisation_use_hessian false
By doing so it does not require to store the hessian but the convergence is not easy, in particular for virtual MOs. It seems that it not possible to converge with Pipek-Mezey localization with this approach.
Parameters
Some other parameters are available for the localization (qp edit for more details).
Tests
qp test
Org files
The org files are stored in the directory org in order to avoid overwriting on user changes. The org files can be modified, to export the change to the source code, run
./TANGLE_org_mode.sh
mv *.irp.f ../.