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| inporb # read from local files '$Project.inporb', '$Project.casorb', and '$Project.scforb' in turn to find guess MOs. | inporb # read from local files '$Project.inporb', '$Project.canorb', and '$Project.scforb' in turn to find guess MOs. |
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| === direct === {{{#!wiki MCSCF calculation with one direct CI step in each micro-iteraction, which may be useful in large CI system, default is .false.. }}} |
MCSCF
Contents
Multi-configurational self consistent field program.
General keywords
Close
- Number of inactive orbitals in each irreps.
Example:
Active
- Number of active orbitals in each irreps.
Example:
actel
- Number of active electrons in active space.
Example:
RootPrt
- Print the target state (root) energy for calculating numerical gradient of this state in numgrad module, default is 1.
Example:
RootPrt 3 # the third state (root) energies will be printed.
Symmetry
- Symmetry of the target state.
Example:
Spin
- Spin multiplicity. 2S+1
Example 1:
Spin 1 # singlet
Example 2:
Spin 2 # doublet
Roots
Three lines should be provided. Line 1: Two integrals. The first is number of averaged states and the second number of states calculated in CI. Line 2: which states should be averaged Line 3: weight of states in state-average calcualtion
Example:
Roots 3 4 # 3 states will be averged, 4 states will be calculated 1 2 3 # States 1 2 3 will be averged 1 1 1 # equal weight for each state
MixCI
Four lines should be provided for controlling state average CASSCF calculations with different spin and space symmetries of CAS-CI. Line 1: number for different types of CI. Line 2: spin multiplicity for each type of CI. Line 3: averaged state number for each type of CI. Line 4: irreducible representation number for each type of CI.
Example:
MixCI 3 # number for three types of CI. 1 3 5 # singlet, triplet and quintet for three types of CI, respectively. 3 1 2 # three, one and two averaged states for three types of CI, respectively, sum of them must be equal to that setting in 'Nroots'. 1 4 3 # first, fourth, third irreducible representation for three types of CI, respectively.
Comment:
With keyword 'MixCI' setting, keywords 'spin' and 'symmetry' are useless and can be missing.
guess
- Initial molecular orbitals reading.
Notice:
Guess : hforb is default with SCF MOs as initial MOs from TMPDIR by the unformatted File hforb. Guess : mcorb is set with recent MCSCF MOs as initial MOs from TMPDIR by the unformatted File mcorb. Guess : inporb is set with recent MCSCF MOs as initial MOs from WORKDIR by the formatted File inporb, canorb, scforb in turn. Guess : hcore is set with Nuclear core Hamiltonian as initial MOs. Guess : huckel is set with Extend Huckel Hamiltonian as initial MOs.
Example 1:
Guess hforb # read SCF MOs from scratch file, which is default.
Example 2:
Guess hcore # with Nuclear core Hamiltonian as initial MOs.
Example 3:
Guess inporb # read from local files '$Project.inporb', '$Project.canorb', and '$Project.scforb' in turn to find guess MOs.
Example 4:
Guess mcorb # read CASSCF MOs from scratch file.
direct
- MCSCF calculation with one direct CI step in each micro-iteraction, which may be useful in large CI system, default is .false..
molden
- Output MCSCF orbital into Molden format file.