DFOCC¶
Performs density-fitted orbital-optimized MPn and CC computations and conventional MPn computations.
General¶
CC_DIIS_MAX_VECS¶
Maximum number of vectors used in amplitude DIIS
- Type: integer
- Default: 6
CC_DIIS_MIN_VECS¶
Minimum number of vectors used in amplitude DIIS
- Type: integer
- Default: 2
CC_MAXITER¶
Maximum number of iterations to determine the amplitudes
- Type: integer
- Default: 50
CHOLESKY_TOLERANCE¶
tolerance for Cholesky decomposition of the ERI tensor
- Type: conv double
- Default: 1.0e-4
COMPUT_S2¶
Do compute \(\langle \hat{S}^2 \rangle\) for DF-OMP2/DF-MP2?
- Type: boolean
- Default: false
DO_LEVEL_SHIFT¶
Do apply level shifting?
- Type: boolean
- Default: true
DO_SCS¶
Do perform spin-component-scaled OMP2 (SCS-OMP2)? In all computation, SCS-OMP2 energy is computed automatically. However, in order to perform geometry optimizations and frequency computations with SCS-OMP2, one needs to set ‘DO_SCS’ to true
- Type: boolean
- Default: false
DO_SOS¶
Do perform spin-opposite-scaled OMP2 (SOS-OMP2)? In all computation, SOS-OMP2 energy is computed automatically. However, in order to perform geometry optimizations and frequency computations with SOS-OMP2, one needs to set ‘DO_SOS’ to true
- Type: boolean
- Default: false
EKT_IP¶
Do compute ionization potentials based on the extended Koopmans’ theorem?
- Type: boolean
- Default: false
E_CONVERGENCE¶
Convergence criterion for energy. See Table Post-SCF Convergence for default convergence criteria for different calculation types.
- Type: conv double
- Default: 1e-6
HESS_TYPE¶
Type of the MO Hessian matrix
- Type: string
- Possible Values: APPROX_DIAG, APPROX_DIAG_EKT, APPROX_DIAG_HF, HF
- Default: HF
INTEGRAL_CUTOFF¶
Cutoff value for DF integrals
- Type: integer
- Default: 9
LEVEL_SHIFT¶
Level shift to aid convergence
- Type: double
- Default: 0.02
LINEQ_SOLVER¶
The solver will be used for simultaneous linear equations.
- Type: string
- Possible Values: CDGESV, FLIN, POPLE
- Default: CDGESV
MAX_MOGRAD_CONVERGENCE¶
Convergence criterion for maximum orbital gradient
- Type: conv double
- Default: 1e-3
MOLDEN_WRITE¶
Do write a MOLDEN output file? If so, the filename will end in .molden, and the prefix is determined by WRITER_FILE_LABEL (if set), or else by the name of the output file plus the name of the current molecule.
- Type: boolean
- Default: false
MO_DIIS_NUM_VECS¶
Number of vectors used in orbital DIIS
- Type: integer
- Default: 6
MO_MAXITER¶
Maximum number of iterations to determine the orbitals
- Type: integer
- Default: 50
MO_STEP_MAX¶
Maximum step size in orbital-optimization procedure
- Type: double
- Default: 0.5
MP2_AMP_TYPE¶
The algorithm that used to handle mp2 amplitudes. The DIRECT option means compute amplitudes on the fly whenever they are necessary.
- Type: string
- Possible Values: DIRECT, CONV
- Default: DIRECT
MP2_OS_SCALE¶
MP2 opposite-spin scaling value
- Type: double
- Default: 6.0/5.0
MP2_SOS_SCALE¶
MP2 Spin-opposite scaling (SOS) value
- Type: double
- Default: 1.3
MP2_SOS_SCALE2¶
Spin-opposite scaling (SOS) value for optimized-MP2 orbitals
- Type: double
- Default: 1.2
MP2_SS_SCALE¶
MP2 same-spin scaling value
- Type: double
- Default: 1.0/3.0
OCC_ORBS_PRINT¶
Do print OCC orbital energies?
- Type: boolean
- Default: false
OPT_METHOD¶
The orbital optimization algorithm. Presently quasi-Newton-Raphson algorithm available with several Hessian options.
- Type: string
- Possible Values: QNR
- Default: QNR
ORB_RESP_SOLVER¶
The algorithm will be used for solving the orbital-response equations. The LINEQ option create the MO Hessian and solve the simultaneous linear equations with method choosen by the LINEQ_SOLVER option. The PCG option does not create the MO Hessian explicitly, instead it solves the simultaneous equations iteratively with the preconditioned conjugate gradient method.
- Type: string
- Possible Values: PCG, LINEQ
- Default: PCG
ORTH_TYPE¶
The algorithm for orthogonalization of MOs
- Type: string
- Possible Values: GS, MGS
- Default: MGS
PCG_BETA_TYPE¶
CEPA type such as CEPA0, CEPA1 etc. currently we have only CEPA0.
- Type: string
- Possible Values: FLETCHER_REEVES, POLAK_RIBIERE
- Default: FLETCHER_REEVES
PCG_CONVERGENCE¶
Convergence criterion for residual vector of preconditioned conjugate gradient method.
- Type: conv double
- Default: 1e-6
PCG_MAXITER¶
Maximum number of preconditioned conjugate gradient iterations.
- Type: integer
- Default: 50
PPL_TYPE¶
Type of the CCSD PPL term.
- Type: string
- Possible Values: LOW_MEM, HIGH_MEM, CD, AUTO
- Default: AUTO
READ_SCF_3INDEX¶
Do read 3-index integrals from SCF files?
- Type: boolean
- Default: true
REGULARIZATION¶
Do use regularized denominators?
- Type: boolean
- Default: false
RMS_MOGRAD_CONVERGENCE¶
Convergence criterion for RMS orbital gradient. Default adjusts depending on E_CONVERGENCE
- Type: conv double
- Default: 1e-6
R_CONVERGENCE¶
Convergence criterion for amplitudes (residuals).
- Type: conv double
- Default: 1e-5
SCS_TYPE¶
Type of the SCS method
- Type: string
- Possible Values: SCS, SCSN, SCSVDW, SCSMI
- Default: SCS
TRIPLES_IABC_TYPE¶
The algorithm to handle (ia|bc) type integrals that used for (T) correction.
- Type: string
- Possible Values: INCORE, AUTO, DIRECT, DISK
- Default: DISK