SAPT¶
Performs symmetry adapted perturbation theory (SAPT) analysis to quantitatively analyze non-covalent interactions.
SAPT(HF)¶
AIO_CPHF¶
Do use asynchronous disk I/O in the solution of the CPHF equations? Use may speed up the computation slightly at the cost of spawning an additional thread.
Type: boolean
Default: false
AIO_DF_INTS¶
Do use asynchronous disk I/O in the formation of the DF integrals? Use may speed up the computation slightly at the cost of spawning an additional thread.
Type: boolean
Default: false
BASIS¶
Primary basis set, describes the monomer molecular orbitals
Type: string
Possible Values: basis string
Default: No Default
CCD_E_CONVERGENCE¶
E converge value for CCD
Type: conv double
Default: 1e-8
CCD_MAXITER¶
Max CCD iterations
Type: integer
Default: 50
CCD_T_CONVERGENCE¶
Convergence tolerance for CCD amplitudes
Type: conv double
Default: 1e-8
DENOMINATOR_ALGORITHM¶
Denominator algorithm for PT methods. Laplace transformations are slightly more efficient.
Type: string
Possible Values: LAPLACE, CHOLESKY
Default: LAPLACE
DENOMINATOR_DELTA¶
Maximum error allowed (Max error norm in Delta tensor) in the approximate energy denominators employed for most of the \(E_{disp}^{(20)}\) and \(E_{exch-disp}^{(20)}\) evaluation.
Type: double
Default: 1.0e-6
DF_BASIS_ELST¶
Auxiliary basis set for SAPT Elst10 and Exch10 density fitting computations, may be important if heavier elements are involved. Defaults to DF_BASIS_SAPT
Type: string
Possible Values: basis string
Default: No Default
DF_BASIS_SAPT¶
Auxiliary basis set for SAPT density fitting computations. Defaults to a RI basis.
Type: string
Possible Values: basis string
Default: No Default
D_CONVERGENCE¶
Convergence criterion for residual of the CPHF coefficients in the SAPT \(E_{ind,resp}^{(20)}\) term.
Type: conv double
Default: 1e-8
EXCH_SCALE_ALPHA¶
Whether or not to perform exchange scaling for SAPT exchange components. Default is false, i.e. no scaling. If set to true, performs scaling with \(Exch10 / Exch10(S^2)\). If set to a value \(\alpha\), performs scaling with \((Exch10 / Exch10(S^2))^{\alpha}\).
Type: string
Default: FALSE
E_CONVERGENCE¶
Convergence criterion for energy (change) in the SAPT \(E_{ind,resp}^{(20)}\) term during solution of the CPHF equations.
Type: conv double
Default: 1e-10
FREEZE_CORE¶
The scope of core orbitals to freeze in evaluation of SAPT \(E_{disp}^{(20)}\) and \(E_{exch-disp}^{(20)}\) terms. Recommended true for all SAPT computations
Type: string
Possible Values: FALSE, TRUE
Default: FALSE
INTS_TOLERANCE¶
Schwarz screening threshold. Minimum absolute value below which all three-index DF integrals and those contributing to four-index integrals are neglected. The default is conservative, but there isn’t much to be gained from loosening it, especially for higher-order SAPT.
Type: conv double
Default: 1.0e-12
MAXITER¶
Maximum number of CPHF iterations
Type: integer
Default: 50
MAX_CCD_DIISVECS¶
Maximum number of vectors used in CCD-DIIS
Type: integer
Default: 10
MIN_CCD_DIISVECS¶
Minimum number of vectors used in CCD-DIIS
Type: integer
Default: 4
NAT_ORBS_T2¶
Do use MP2 natural orbital approximations for the \(v^4\) block of two-electron integrals in the evaluation of second-order T2 amplitudes? Recommended true for all SAPT computations.
Type: boolean
Default: true
NAT_ORBS_T3¶
Do natural orbitals to speed up evaluation of the triples contribution to dispersion by truncating the virtual orbital space? Recommended true for all SAPT computations.
Type: boolean
Default: true
NAT_ORBS_V4¶
Do use MP2 natural orbital approximations for the \(v^4\) block of two-electron integrals in the evaluation of CCD T2 amplitudes? Recommended true for all SAPT computations.
Type: boolean
Default: true
OCC_TOLERANCE¶
Minimum occupation (eigenvalues of the MP2 OPDM) below which virtual natural orbitals are discarded for in each of the above three truncations
Type: conv double
Default: 1.0e-6
PRINT¶
The amount of information to print to the output file for the sapt module. For 0, only the header and final results are printed. For 1, (recommended for large calculations) some intermediate quantities are also printed.
Type: integer
Default: 1
SAPT_LEVEL¶
The level of theory for SAPT
Type: string
Possible Values: SAPT0, SAPT2, SAPT2+, SAPT2+3
Default: SAPT0
SAPT_MEM_CHECK¶
Do force SAPT2 and higher to die if it thinks there isn’t enough memory? Turning this off is ill-advised.
Type: boolean
Default: true
SAPT_MEM_SAFETY¶
Memory safety
Type: double
Default: 0.9
SCREENING¶
Do use Combined Schwarz Approximation Maximum (CSAM) screening on two-electron integrals. This is a slightly tighter bound than that of default Schwarz screening.
Type: string
Possible Values: SCHWARZ, CSAM
Default: CSAM
SAPT(DFT)¶
SAPT_DFT_DO_DHF¶
Compute the Delta-HF correction?
Type: boolean
Default: true
SAPT_DFT_EXCH_DISP_SCALE_SCHEME¶
Scheme for approximating exchange-dispersion for SAPT-DFT.
NONE
Use unscaledExch-Disp2,u
.FIXED
Use a fixed factor SAPT_DFT_EXCH_DISP_FIXED_SCALE to scaleExch-Disp2,u
.DISP
Use the ratio ofDisp2,r
andDisp2,u
to scaleExch-Disp2,u
.
Type: string
Possible Values: NONE, FIXED, DISP
Default: DISP
SAPT_DFT_GRAC_SHIFT_A¶
Monomer A GRAC shift in Hartree
Type: double
Default: 0.0
SAPT_DFT_GRAC_SHIFT_B¶
Monomer B GRAC shift in Hartree
Type: double
Default: 0.0
Expert SAPT(HF)¶
COUPLED_INDUCTION¶
Solve the CPHF equations to compute coupled induction and exchange-induction. These are not available for ROHF, and the option is automatically false in this case. In all other cases, coupled induction is strongly recommended. Only turn it off if the induction energy is not going to be used.
Type: boolean
Default: true
DO_CCD_DISP¶
Do CCD dispersion correction in SAPT2+, SAPT2+(3) or SAPT2+3?
Type: boolean
Default: false
DO_DISP_EXCH_SINF¶
For SAPT(DFT) computes the \(S^{inf}\) Exchange-Dispersion terms.
Type: boolean
Default: false
DO_IND_EXCH_SINF¶
For SAPT(DFT) computes the \(S^{inf}\) Exchange-Induction terms.
Type: boolean
Default: false
DO_MBPT_DISP¶
Do MBPT dispersion correction in SAPT2+, SAPT2+(3) or SAPT2+3, if also doing CCD?
Type: boolean
Default: true
DO_THIRD_ORDER¶
Do compute third-order corrections?
Type: boolean
Default: false
SAPT0_E10¶
For SAPT0 only, compute only first-order electrostatics and exchange. The integrals are computed before any terms, so all integrals will be computed even if they are not needed for the requested term
Type: boolean
Default: false
SAPT0_E20DISP¶
For SAPT0 only, compute only second-order induction The integrals are computed before any terms, so all integrals will be computed even if they are not needed for the requested term
Type: boolean
Default: false
SAPT0_E20IND¶
For SAPT0 only, compute only second-order induction The integrals are computed before any terms, so all integrals will be computed even if they are not needed for the requested term
Type: boolean
Default: false
SAPT_MEM_FACTOR¶
Proportion of memory available for the DF-MP2 three-index integral buffers used to evaluate dispersion.
Type: double
Default: 0.9
Expert SAPT(DFT)¶
SAPT_DFT_DO_HYBRID¶
Enables the hybrid xc kernel in dispersion?
Type: boolean
Default: true
SAPT_DFT_EXCH_DISP_FIXED_SCALE¶
Exch-disp scaling factor for FIXED scheme for SAPT_DFT_EXCH_DISP_SCALE_SCHEME Default value of 0.686 suggested by Hesselmann and Korona, J. Chem. Phys. 141, 094107 (2014).
Type: double
Default: 0.686
SAPT_DFT_FUNCTIONAL¶
Underlying funcitonal to use for SAPT(DFT)
Type: string
Default: PBE0
SAPT_DFT_GRAC_DETERMINATION¶
How is the GRAC correction determined?
Type: string
Possible Values: INPUT
Default: INPUT
SAPT_DFT_MP2_DISP_ALG¶
Which MP2 Exch-Disp module to use?
Type: string
Possible Values: FISAPT, SAPT
Default: SAPT
SAPT_FDDS_DISP_LEG_LAMBDA¶
Lambda shift in the space morphing for the FDDS Dispersion time integration
Type: double
Default: 0.3
SAPT_FDDS_DISP_NUM_POINTS¶
Number of points in the Legendre FDDS Dispersion time integration
Type: integer
Default: 10
SAPT_FDDS_V2_RHO_CUTOFF¶
Minimum rho cutoff for the in the LDA response for FDDS
Type: double
Default: 1.e-6
SAPT_QUIET¶
Interior option to clean up printing
Type: boolean
Default: false