3.9.15. horton.meanfield.scf_cdiis
– Commutator DIIS SCF algorithm¶
-
class
horton.meanfield.scf_cdiis.
CDIISSCFSolver
(threshold=1e-06, maxiter=128, nvector=6, skip_energy=False, prune_old_states=False)¶ Bases:
horton.meanfield.scf_diis.DIISSCFSolver
Optional arguments:
- maxiter
- The maximum number of iterations. When set to None, the SCF loop will go one until convergence is reached.
- threshold
- The convergence threshold for the wavefunction
- skip_energy
- When set to True, the final energy is not computed. Note that some DIIS variants need to compute the energy anyway. for these methods this option is irrelevant.
- prune_old_states
- When set to True, old states are pruned from the history when their coefficient is zero. Pruning starts at the oldest state and stops as soon as a state is encountered with a non-zero coefficient. Even if some newer states have a zero coefficient.
-
__call__
(*args, **kwargs)¶ Find a self-consistent set of density matrices.
Arguments:
- ham
- An effective Hamiltonian.
- lf
- The linalg factory to be used.
- overlap
- The overlap operator.
- occ_model
- Model for the orbital occupations.
- dm1, dm2, …
- The initial density matrices. The number of dms must match ham.ndm.
-
__init__
(threshold=1e-06, maxiter=128, nvector=6, skip_energy=False, prune_old_states=False)¶ Optional arguments:
- maxiter
- The maximum number of iterations. When set to None, the SCF loop will go one until convergence is reached.
- threshold
- The convergence threshold for the wavefunction
- skip_energy
- When set to True, the final energy is not computed. Note that some DIIS variants need to compute the energy anyway. for these methods this option is irrelevant.
- prune_old_states
- When set to True, old states are pruned from the history when their coefficient is zero. Pruning starts at the oldest state and stops as soon as a state is encountered with a non-zero coefficient. Even if some newer states have a zero coefficient.
-
error
(ham, lf, overlap, *dms)¶
-
kind
= ‘dm’¶