CCLAMBDA¶
Solves for the Lagrange multipliers, which are needed whenever coupled cluster properties or gradients are requested.
General¶
ABCD¶
Type of ABCD algorithm will be used
Type: string
Default: NEW
AO_BASIS¶
The algorithm to use for the \(\left\langle VV||VV \right\rangle\) terms
Type: string
Possible Values: NONE, DISK, DIRECT
Default: NONE
CACHELEVEL¶
Caching level for libdpd governing the storage of amplitudes, integrals, and intermediates in the CC procedure. A value of 0 retains no quantities in cache, while a level of 6 attempts to store all quantities in cache. For particularly large calculations, a value of 0 may help with certain types of memory problems. The default is 2, which means that all four-index quantities with up to two virtual-orbital indices (e.g., \(\left\langle ij | ab \right\rangle\) integrals) may be held in the cache.
Type: integer
Default: 2
DIIS¶
Do use DIIS extrapolation to accelerate convergence?
Type: boolean
Default: true
LOCAL¶
Do simulate the effects of local correlation techniques?
Type: boolean
Default: false
LOCAL_CPHF_CUTOFF¶
Cutoff value for local-coupled-perturbed-Hartree-Fock
Type: double
Default: 0.10
LOCAL_CUTOFF¶
Value (always between one and zero) for the Broughton-Pulay completeness check used to contruct orbital domains for local-CC calculations. See J. Broughton and P. Pulay, J. Comp. Chem. 14, 736-740 (1993) and C. Hampel and H.-J. Werner, J. Chem. Phys. 104, 6286-6297 (1996).
Type: double
Default: 0.02
LOCAL_FILTER_SINGLES¶
Do apply local filtering to single de-excitation (\(\lambda 1\) amplitudes?
Type: boolean
Default: true
LOCAL_METHOD¶
Type of local-CCSD scheme to be simulated.
WERNER(unique available option) selects the method developed by H.-J. Werner and co-workers.
Type: string
Default: WERNER
LOCAL_PAIRDEF¶
Definition of local pair domains
Type: string
Default: No Default
LOCAL_WEAKP¶
Desired treatment of “weak pairs” in the local-CCSD method. The value of
NONE(unique available option) treats weak pairs in the same manner as strong pairs.
Type: string
Default: NONE
MAXITER¶
Maximum number of iterations
Type: integer
Default: 50
NUM_AMPS_PRINT¶
Number of important CC amplitudes per excitation level to print. CC analog to NUM_DETS_PRINT
Type: integer
Default: 10
PROP_ALL¶
Compute unrelaxed properties for all excited states.
Type: boolean
Default: true
PROP_ROOT¶
Root number (within its irrep) for computing properties
Type: integer
Default: 1
PROP_SYM¶
The symmetry of states
Type: integer
Default: 1
RESTART¶
Do restart the coupled-cluster iterations from old \(\lambda_1\) and \(\lambda_2\) amplitudes?
Type: boolean
Default: false
ROOTS_PER_IRREP¶
The number of electronic states to computed, per irreducible representation
Type: array
Default: No Default
R_CONVERGENCE¶
Convergence criterion for wavefunction (change) in CC lambda-amplitude equations.
Type: conv double
Default: 1e-7
SEKINO¶
Do Sekino-Bartlett size-extensive model-III?
Type: boolean
Default: false
ZETA¶
Do use zeta?
Type: boolean
Default: false
Expert¶
JOBTYPE¶
Type of job being performed
Type: string
Default: No Default
WFN¶
Wavefunction type
Type: string
Default: SCF
