CCEOM¶
Performs equation-of-motion (EOM) coupled cluster excited state computations.
General¶
ABCD¶
Type of ABCD algorithm will be used
Type: string
Possible Values: NEW, OLD
Default: NEW
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
CACHETYPE¶
The criterion used to retain/release cached data
Type: string
Possible Values: LOW, LRU
Default: LRU
CC3_FOLLOW_ROOT¶
Do turn on root following for CC3
Type: boolean
Default: false
CC_NUM_THREADS¶
Number of threads
Type: integer
Default: 1
COLLAPSE_WITH_LAST¶
When collapsing Davidson subspace, whether to also include the previous approximate solution (for each root)? This doubles the number of resulting vectors but generally improves convergence.
Type: boolean
Default: true
COLLAPSE_WITH_LAST_CC3¶
Has the same effect as “COLLAPSE_WITH_LAST” but only in CC3 computations and after the initial solution of EOM CCSD. May help efficiency, but hazardous when solving for higher roots.
Type: boolean
Default: false
COMPLEX_TOLERANCE¶
Complex tolerance applied in CCEOM computations
Type: conv double
Default: 1e-12
EOM_GUESS¶
Specifies a set of single-excitation guess vectors for the EOM-CC procedure. If EOM_GUESS =
SINGLES
, the guess will be taken from the singles-singles block of the similarity-transformed Hamiltonian, Hbar. If EOM_GUESS =DISK
, guess vectors from a previous computation will be read from disk. If EOM_GUESS =INPUT
, guess vectors will be specified in user input. The latter method is not currently available.
Type: string
Possible Values: SINGLES, DISK, INPUT
Default: SINGLES
EOM_REFERENCE¶
Reference wavefunction type for EOM computations
Type: string
Possible Values: RHF, ROHF, UHF
Default: RHF
E_CONVERGENCE¶
Convergence criterion for excitation energy (change) in the Davidson algorithm for CC-EOM. See Table Post-SCF Convergence for default convergence criteria for different calculation types.
Type: conv double
Default: 1e-6
FULL_MATRIX¶
Do use full effective Hamiltonian matrix?
Type: boolean
Default: false
LOCAL¶
Do simulate the effects of local correlation techniques?
Type: boolean
Default: false
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_DO_SINGLES¶
Type: boolean
Default: true
LOCAL_FILTER_SINGLES¶
Do apply local filtering to singles amplitudes?
Type: boolean
Default: true
LOCAL_METHOD¶
Type of local-CCSD scheme to be simulated.
WERNER
selects the method developed by H.-J. Werner and co-workers, andAOBASIS
selects the method developed by G.E. Scuseria and co-workers (currently inoperative).
Type: string
Possible Values: WERNER, AOBASIS
Default: WERNER
LOCAL_PRECONDITIONER¶
Preconditioner will be used in local CC computations
Type: string
Possible Values: HBAR, FOCK
Default: HBAR
LOCAL_WEAKP¶
Desired treatment of “weak pairs” in the local-CCSD method. A value of
NEGLECT
ignores weak pairs entirely. A value ofNONE
treats weak pairs in the same manner as strong pairs. A value of MP2 uses second-order perturbation theory to correct the local-CCSD energy computed with weak pairs ignored.
Type: string
Possible Values: NONE, MP2, NEGLECT
Default: NONE
MAXITER¶
Maximum number of iterations
Type: integer
Default: 80
NEW_TRIPLES¶
Do use new triples?
Type: boolean
Default: true
NUM_AMPS_PRINT¶
Number of important CC amplitudes to print
Type: integer
Default: 5
OVERLAP_CHECK¶
Report overlaps with old excited-state wave functions, if available, and store current wave functions for later use.
Type: boolean
Default: false
PROP_ROOT¶
Root number (within its irrep) for computing properties. Defaults to highest root requested.
Type: integer
Default: 0
PROP_SYM¶
Symmetry of the state to compute properties. Defaults to last irrep for which states are requested.
Type: integer
Default: 1
REFERENCE¶
Reference wavefunction type
Type: string
Possible Values: RHF, ROHF, UHF
Default: RHF
RESTART_EOM_CC3¶
Do restart from on-disk?
Type: boolean
Default: false
RHF_TRIPLETS¶
Do form a triplet state from RHF reference?
Type: boolean
Default: false
ROOTS_PER_IRREP¶
Number of excited states per irreducible representation for EOM-CC and CC-LR calculations. Irreps denote the final state symmetry, not the symmetry of the transition.
Type: array
Default: No Default
R_CONVERGENCE¶
Convergence criterion for norm of the residual vector in the Davidson algorithm for CC-EOM.
Type: conv double
Default: 1e-6
SCHMIDT_ADD_RESIDUAL_TOLERANCE¶
Minimum absolute value above which a guess vector to a root is added to the Davidson algorithm in the EOM-CC iterative procedure.
Type: conv double
Default: 1e-3
SEMICANONICAL¶
Convert ROHF MOs to semicanonical MOs
Type: boolean
Default: true
SINGLES_PRINT¶
Do print information on the iterative solution to the single-excitation EOM-CC problem used as a guess to full EOM-CC?
Type: boolean
Default: false
SS_E_CONVERGENCE¶
Convergence criterion for excitation energy (change) in the Davidson algorithm for the CIS guess to CC-EOM.
Type: conv double
Default: 1e-6
SS_R_CONVERGENCE¶
Convergence criterion for norm of the residual vector in the Davidson algorithm for the CIS guess to CC-EOM.
Type: conv double
Default: 1e-6
SS_SKIP_DIAG¶
Do skip diagonalization of Hbar SS block?
Type: boolean
Default: false
SS_VECS_PER_ROOT¶
SS vectors stored per root
Type: integer
Default: 5
T3_WS_INCORE¶
Do build W intermediates required for eom_cc3 in core memory?
Type: boolean
Default: false
VECS_CC3¶
Vectors stored in CC3 computations
Type: integer
Default: 10
VECS_PER_ROOT¶
Vectors stored per root
Type: integer
Default: 12
Expert¶
EXCITATION_RANGE¶
The depth into the occupied and valence spaces from which one-electron excitations are seeded into the Davidson guess to the CIS (the default of 2 includes all single excitations between HOMO-1, HOMO, LUMO, and LUMO+1). This CIS is in turn the Davidson guess to the EOM-CC. Expand to capture more exotic excited states in the EOM-CC calculation
Type: integer
Default: 2
WFN¶
Wavefunction type
Type: string
Possible Values: EOM_CCSD, EOM_CC2, EOM_CC3
Default: EOM_CCSD