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Cost_package/Manuals/gcasdeloc_emploi
2016-05-03 11:54:25 +02:00

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GCASdeloc GCASdeloc GCASdeloc GCASdeloc GCASdeloc
-------------------------------------------------------------------
Note: If you know GCAS, GCASdeloc is a simplified version, without
reference to use of local orbitals
Definition: merge the orbitals or several rasscf orbital files, to
get average orbitals
Method:
Get Occupied, Active and Virtuals from several RasOrb files. Some of
them appear more than once, as they were generated by different
rasscf calculations. In that case they are almost identical.
Step 1 Actives:
Buils overlap matrix between actives, diagonalise. One gets almost
integer eigenvalues. If ~1: the active was generated once. The
eigenvector corresponds to the active orbital. If eigenvalue ~n (n>0)
the state was present in n rasscf calculations. The eingenvector will
result in an average vector of the n states. If eigenvalue ~0, the
eigenvector should be eliminated, as it is the result or a linear
dependency. there are n-1 eliminated vectors for a eigen value equal
to n.
Step 2 Once constructed the Active space, one must build the occupied and
virtual spaces
Occupied :
It would be convenient to use the same method, but the number of
cumulated occupied orbitals could be to large. it would be impossible
to diagonalise
Then:
- take RasOrb file number 1
- loop on orbitals
- for occupied n, look for an equivalent in all other files
if one equivalent is found, and if it corresponds to an active,
forget the orbital
- Otherwise, one has nf orbitals, where nf is the number of RasOrb files
- Apply same method, as it was done for actives (overlap matrix,
diagonalisation, get only eigenvalue equal to nf.
Virtuelles : as for occupied
Step 4 hierarchised orthogonalisation act, then occ+virt
-------------------------------------------------------------------
Input files: (on $WorkDir) :
- Info et Mono files
- RasOrb files
Input files: (on $CurrDir)
- rasin files (data files for rasscf calculations.
Input data:
1.
&gcas prefix='...',nprint=..,symm= ,ninac= ,noac= ,nelac= /
prefix : compulsory
symm : needed on old molcas versions, if one wants a molden file.
ninac,noac: number of doubly occupied, and active orbitals in each
symmetry.
nelac: number of active electrons.
ninac,numac and nelac correspond to the final active space, once merged
all active orbitals.
2.
&ras namelists, one for each RasOrb file
&ras input= ,'rasorb= /
input: name of rasscf input file (is on CurrDir!)
rasorb: name of rasOrb file (is on WorkDir!)
Output: sortie :- A RasOrb file with many actives ($Project.GCasOrb)
Example of data:
gcasdeloc << EOF
&gcas prefix='Ni.',nprint=0,ninac=35,24,35,24,31,21,31,21,
noac=1,0,1,0,1,0,1,0,nelac=6 /
&ras input='rasin_357S',rasorb='Ni.RasOrb_357S' /
&ras input='rasin_1357T',rasorb='Ni.RasOrb_1357T' /
EOF