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DETCI

Performs configuration interaction (CI) computations of various types, including restricted-active-space (RAS) CI, full CI, the CI component of multi-configuration self-consistent-field (MCSCF) and complete-active-space self-consistent-field (CASSCF) computations, and arbitrary-order perturbation theory and arbitrary-order coupled-cluster computations for small molecules.

General Options

AVG_STATES

Array giving the root numbers of the states to average in a state-averaged procedure such as SA-CASSCF. Root numbering starts from 1.

  • Type: array
  • Default: No Default

AVG_WEIGHTS

Array giving the weights for each state in a state-averaged procedure

  • Type: array
  • Default: No Default

CIBLKS_PRINT

Do print a summary of the CI blocks?

CI_NUM_THREADS

Number of threads for DETCI.

  • Type: integer
  • Default: 1

DETCI_FREEZE_CORE

Do freeze core orbitals?

EX_LEVEL

The CI excitation level

  • Type: integer
  • Default: 2

E_CONVERGENCE

Convergence criterion for energy. See Table Post-SCF Convergence for default convergence criteria for different calculation types.

FCI

Do a full CI (FCI)? If TRUE, overrides the value of EX_LEVEL

ICORE

Specifies how to handle buffering of CI vectors. A value of 0 makes the program perform I/O one RAS subblock at a time; 1 uses entire CI vectors at a time; and 2 uses one irrep block at a time. Values of 0 or 2 cause some inefficiency in the I/O (requiring multiple reads of the C vector when constructing H in the iterative subspace if DIAG_METHOD = SEM), but require less core memory.

  • Type: integer
  • Default: 1

ISTOP

Do stop DETCI after string information is formed and before integrals are read?

MAXITER

Maximum number of iterations to diagonalize the Hamiltonian

  • Type: integer
  • Default: 12

NUM_DETS_PRINT

Number of important determinants to print

  • Type: integer
  • Default: 20

NUM_ROOTS

number of CI roots to find

  • Type: integer
  • Default: 1

REFERENCE

Reference wavefunction type

  • Type: string
  • Possible Values: RHF, ROHF
  • Default: RHF

R_CONVERGENCE

Convergence criterion for CI residual vector in the Davidson algorithm (RMS error). The default is 1e-4 for energies and 1e-7 for gradients.

S_SQUARED

Do calculate the value of \langle S^2\rangle for each root? Only supported for ICORE = 1.

VAL_EX_LEVEL

In a RAS CI, this is the additional excitation level for allowing electrons out of RAS I into RAS II. The maximum number of holes in RAS I is therefore EX_LEVEL + VAL_EX_LEVEL.

  • Type: integer
  • Default: 0

Specifying the CI Space

ACTIVE

An array giving the number of active orbitals (occupied plus unoccupied) per irrep (shorthand to make MCSCF easier to specify than using RAS keywords)

  • Type: array
  • Default: No Default

A_RAS3_MAX

maximum number of alpha electrons in RAS III

  • Type: integer
  • Default: -1

B_RAS3_MAX

maximum number of beta electrons in RAS III

  • Type: integer
  • Default: -1

MS0

Do use the M_s = 0 component of the state? Defaults to TRUE if closed-shell and FALSE otherwise. Related to the S option.

RAS34_MAX

maximum number of electrons in RAS III + IV

  • Type: integer
  • Default: -1

RAS3_MAX

maximum number of electrons in RAS III

  • Type: integer
  • Default: -1

RAS4_MAX

maximum number of electrons in RAS IV

  • Type: integer
  • Default: -1

RESTRICTED_DOCC

An array giving the number of restricted doubly-occupied orbitals per irrep (not excited in CI wavefunctions, but orbitals can be optimized in MCSCF)

  • Type: array
  • Default: No Default

RESTRICTED_UOCC

An array giving the number of restricted unoccupied orbitals per irrep (not occupied in CI wavefunctions, but orbitals can be optimized in MCSCF)

  • Type: array
  • Default: No Default

S

The value of the spin quantum number S is given by this option. The default is determined by the value of the multiplicity. This is used for two things: (1) determining the phase of the redundant half of the CI vector when the M_s = 0 component is used (i.e., MS0 = TRUE), and (2) making sure the guess vector has the desired value of \langle S^2\rangle (if S_SQUARED is TRUE and ICORE = 1).

  • Type: double
  • Default: 0.0

Diagonalization Methods

DIAG_METHOD

This specifies which method is to be used in diagonalizing the Hamiltonian. The valid options are: RSP, to form the entire H matrix and diagonalize using libciomr to obtain all eigenvalues (n.b. requires HUGE memory); OLSEN, to use Olsen’s preconditioned inverse subspace method (1990); MITRUSHENKOV, to use a 2x2 Olsen/Davidson method; and DAVIDSON (or SEM) to use Liu’s Simultaneous Expansion Method, which is identical to the Davidson method if only one root is to be found. There also exists a SEM debugging mode, SEMTEST. The SEM method is the most robust, but it also requires 2NM+1 CI vectors on disk, where N is the maximum number of iterations and M is the number of roots.

  • Type: string
  • Possible Values: RSP, OLSEN, MITRUSHENKOV, DAVIDSON, SEM, SEMTEST
  • Default: SEM

LSE

Do use least-squares extrapolation in iterative solution of CI vector?

LSE_COLLAPSE

Number of iterations between least-squares extrapolations

  • Type: integer
  • Default: 3

LSE_TOLERANCE

Minimum converged energy for least-squares extrapolation to be performed

PRECONDITIONER

This specifies the type of preconditioner to use in the selected diagonalization method. The valid options are: DAVIDSON which approximates the Hamiltonian matrix by the diagonal elements; H0BLOCK_INV which uses an exact Hamiltonian of H0_BLOCKSIZE and explicitly inverts it; GEN_DAVIDSON which does a spectral decomposition of H0BLOCK; ITER_INV using an iterative approach to obtain the correction vector of H0BLOCK. The H0BLOCK_INV, GEN_DAVIDSON, and ITER_INV approaches are all formally equivalent but the ITER_INV is less computationally expensive. Default is DAVIDSON.

  • Type: string
  • Possible Values: LANCZOS, DAVIDSON, GEN_DAVIDSON, H0BLOCK, H0BLOCK_INV, ITER_INV, H0BLOCK_COUPLING, EVANGELISTI
  • Default: DAVIDSON

UPDATE

The update or correction vector formula, either DAVIDSON (default) or OLSEN.

  • Type: string
  • Possible Values: DAVIDSON, OLSEN
  • Default: DAVIDSON

Density Matrices

DIPMOM

Do compute the dipole moment?

NAT_ORBS_WRITE

Do write the natural orbitals?

NAT_ORBS_WRITE_ROOT

Sets the root number for which CI natural orbitals are written to PSIF_CHKPT. The default value is 1 (lowest root).

  • Type: integer
  • Default: 1

OPDM

Do compute one-particle density matrix if not otherwise required?

OPDM_AVG

Do average the OPDM over several roots in order to obtain a state-average one-particle density matrix? This density matrix can be diagonalized to obtain the CI natural orbitals.

OPDM_PRINT

Do print the one-particle density matrix for each root?

TDM

Do compute the transition density? Note: only transition densities between roots of the same symmetry will be evaluated. DETCI does not compute states of different irreps within the same computation; to do this, lower the symmetry of the computation.

TDM_PRINT

Do print the transition density?

TDM_WRITE

Do write the transition density?

TPDM

Do compute two-particle density matrix if not otherwise required?

TPDM_PRINT

Do print the two-particle density matrix? (Warning: large tensor)

Root Following

FOLLOW_ROOT

The root to write out the two-particle density matrix for (the one-particle density matrices are written for all roots). Useful for a state-specific CASSCF or CI optimization on an excited state.

  • Type: integer
  • Default: 1

Guess Vectors

RESTART

Do restart a DETCI iteration that terminated prematurely? It assumes that the CI and sigma vectors are on disk; the number of vectors specified by RESTART_VECS (obsolete) is collapsed down to one vector per root.

File Handling

COLLAPSE_SIZE

Gives the number of vectors to retain when the Davidson subspace is collapsed (see MAX_NUM_VECS . If greater than one, the collapsed subspace retains the best estimate of the CI vector for the previous n iterations. Defaults to 1.

  • Type: integer
  • Default: 1

MAX_NUM_VECS

Maximum number of Davidson subspace vectors which can be held on disk for the CI coefficient and sigma vectors. (There is one H(diag) vector and the number of D vectors is equal to the number of roots). When the number of vectors on disk reaches the value of MAX_NUM_VECS, the Davidson subspace will be collapsed to COLLAPSE_SIZE vectors for each root. This is very helpful for saving disk space. Defaults to MAXITER * NUM_ROOTS + NUM_INIT_VECS

  • Type: integer
  • Default: 0

NUM_VECS_WRITE

Number of vectors to export

  • Type: integer
  • Default: 1

VECS_WRITE

Do store converged vector(s) at the end of the run? The vector(s) is(are) stored in a transparent format such that other programs can use it easily. The format is specified in psi4/src/lib/libqt/slaterdset.h .

General-Order Perturbation Theory

MPN

Do compute the MPn series out to kth order where k is determined by MAX_NUM_VECS ? For open-shell systems REFERENCE is ROHF, WFN is ZAPTN), DETCI will compute the ZAPTn series. GUESS_VECTOR must be set to UNIT, HD_OTF must be set to TRUE, and HD_AVG must be set to orb_ener; these should happen by default for MPN = TRUE.

General-Order Coupled-Cluster

CC

Do coupled-cluster computation?

CC_A_RAS3_MAX

maximum number of alpha electrons in RAS III, for CC

  • Type: integer
  • Default: -1

CC_B_RAS3_MAX

maximum number of beta electrons in RAS III, for CC

  • Type: integer
  • Default: -1

CC_EX_LEVEL

The CC excitation level

  • Type: integer
  • Default: 2

CC_RAS34_MAX

maximum number of electrons in RAS III + IV, for CC

  • Type: integer
  • Default: -1

CC_RAS3_MAX

maximum number of electrons in RAS III, for CC

  • Type: integer
  • Default: -1

CC_RAS4_MAX

maximum number of electrons in RAS IV, for CC

  • Type: integer
  • Default: -1

CC_VAL_EX_LEVEL

The CC valence excitation level

  • Type: integer
  • Default: 0

CC_VECS_READ

Do import a CC vector from disk?

CC_VECS_WRITE

Do export a CC vector to disk?

DIIS

Do use DIIS extrapolation to accelerate CC convergence?

DIIS_FREQ

How often to do a DIIS extrapolation. 1 means do DIIS every iteration, 2 is every other iteration, etc.

  • Type: integer
  • Default: 1

DIIS_MAX_VECS

Maximum number of error vectors stored for DIIS extrapolation

  • Type: integer
  • Default: 5

DIIS_MIN_VECS

Minimum number of error vectors stored for DIIS extrapolation

  • Type: integer
  • Default: 2

DIIS_START_ITER

Iteration at which to start using DIIS

  • Type: integer
  • Default: 1

NUM_AMPS_PRINT

Number of important CC amplitudes per excitation level to print. CC analog to NUM_DETS_PRINT

  • Type: integer
  • Default: 10

Expert General Options

SIGMA_OVERLAP

Do print the sigma overlap matrix? Not generally useful.

WFN

Wavefunction type. This should be set automatically from the calling Psithon function.

  • Type: string
  • Possible Values: DETCI, CI, ZAPTN, DETCAS, CASSCF, RASSCF
  • Default: DETCI

Expert Specifying the CI Space

EX_ALLOW

An array of length EX_LEVEL specifying whether each excitation type (S,D,T, etc.) is allowed (1 is allowed, 0 is disallowed). Used to specify non-standard CI spaces such as CIST.

  • Type: array
  • Default: No Default

MIXED

Do allow “mixed” RAS II/RAS III excitations into the CI space? If FALSE, then if there are any electrons in RAS III, then the number of holes in RAS I cannot exceed the given excitation level EX_LEVEL

MIXED4

Do allow “mixed” excitations involving RAS IV into the CI space. Useful to specify a split-virtual CISD[TQ] computation. If FALSE, then if there are any electrons in RAS IV, then the number of holes in RAS I cannot exceed the given excitation level EX_LEVEL

R4S

Do restrict strings with e- in RAS IV? Useful to reduce the number of strings required if MIXED4=true, as in a split-virutal CISD[TQ] computation. If more than one electron is in RAS IV, then the holes in RAS I cannot exceed the number of particles in RAS III + RAS IV (i.e., EX_LEVEL , or else the string is discarded.

RAS1

An array giving the number of orbitals per irrep for RAS1

  • Type: array
  • Default: No Default

RAS2

An array giving the number of orbitals per irrep for RAS2

  • Type: array
  • Default: No Default

RAS3

An array giving the number of orbitals per irrep for RAS3

  • Type: array
  • Default: No Default

RAS4

An array giving the number of orbitals per irrep for RAS4

  • Type: array
  • Default: No Default

SF_RESTRICT

Do eliminate determinants not valid for spin-complete spin-flip CI’s? [see J. S. Sears et al, J. Chem. Phys. 118, 9084-9094 (2003)]

Expert Diagonalization Methods

H0_BLOCKSIZE

This parameter specifies the size of the H0 block of the Hamiltonian which is solved exactly. The n determinants with the lowest SCF energy are selected, and a submatrix of the Hamiltonian is formed using these determinants. This submatrix is used to accelerate convergence of the CI iterations in the OLSEN and MITRUSHENKOV iteration schemes, and also to find a good starting guess for the SEM method if GUESS_VECTOR is H0_BLOCK. Defaults to 400. Note that the program may change the given size for Ms=0 cases MS0 is TRUE) if it determines that the H0 block includes only one member of a pair of determinants related by time reversal symmetry. For very small block sizes, this could conceivably eliminate the entire H0 block; the program should print warnings if this occurs.

  • Type: integer
  • Default: 400

H0_BLOCK_COUPLING

Do use coupling block in preconditioner?

H0_BLOCK_COUPLING_SIZE

Parameters which specifies the size of the coupling block within the generalized davidson preconditioner.

  • Type: integer
  • Default: 0

H0_GUESS_SIZE

size of H0 block for initial guess

  • Type: integer
  • Default: 400

HD_AVG

How to average H diag energies over spin coupling sets. HD_EXACT uses the exact diagonal energies which results in expansion vectors which break spin symmetry. HD_KAVE averages the diagonal energies over a spin-coupling set yielding spin pure expansion vectors. ORB_ENER employs the sum of orbital energy approximation giving spin pure expansion vectors but usually doubles the number of Davidson iterations. EVANGELISTI uses the sums and differences of orbital energies with the SCF reference energy to produce spin pure expansion vectors. LEININGER approximation which subtracts the one-electron contribution from the orbital energies, multiplies by 0.5, and adds the one-electron contribution back in, producing spin pure expansion vectors and developed by Matt Leininger and works as well as EVANGELISTI.

  • Type: string
  • Possible Values: EVANGELISTI, HD_EXACT, HD_KAVE, ORB_ENER, LEININGER, Z_KAVE
  • Default: EVANGELISTI

Expert Density Matrices

OPDM_KE

Do compute the kinetic energy contribution from the correlated part of the one-particle density matrix?

Expert Root Following

FOLLOW_VECTOR

In following a particular root (see FOLLOW_ROOT , sometimes the root number changes. To follow a root of a particular character, one can specify a list of determinants and their coefficients, and the code will follow the root with the closest overlap. The user specifies arrays containing the absolute alpha string indices (A_i below), absolute beta indices (B_i below), and CI coefficients (C_i below) to form the desired vector. The format is FOLLOW_VECTOR = [ [[A_1, B_1], C_1], [[A_2, B_2], C_2], ...].

  • Type: array
  • Default: No Default

Expert Guess Vectors

FILTER_GUESS

Do invoke the FILTER_GUESS options that are used to filter out some trial vectors which may not have the appropriate phase convention between two determinants? This is useful to remove, e.g., delta states when a sigma state is desired. The user inputs two determinants (by giving the absolute alpha string number and beta string number for each), and also the desired phase between these two determinants for guesses which are to be kept. FILTER_GUESS = TRUE turns on the filtering routine. Requires additional keywords FILTER_GUESS_DET1 FILTER_GUESS_DET2 and FILTER_GUESS_SIGN

FILTER_GUESS_DET1

Array specifying the absolute alpha string number and beta string number for the first determinant in the filter procedure. (See FILTER_GUESS .

  • Type: array
  • Default: No Default

FILTER_GUESS_DET2

Array specifying the absolute alpha string number and beta string number for the second determinant in the filter procedure. (See FILTER_GUESS .

  • Type: array
  • Default: No Default

FILTER_GUESS_SIGN

The required phase (1 or -1) between the two determinants specified by FILTER_GUESS_DET1 and FILTER_GUESS_DET2

  • Type: integer
  • Default: 1

FILTER_ZERO_DET

If present, the code will try to filter out a particular determinant by setting its CI coefficient to zero. FILTER_ZERO_DET = [alphastr, betastr] specifies the absolute alpha and beta string numbers of the target determinant. This could be useful for trying to exclude states that have a nonzero CI coefficient for the given determinant. However, this option was experimental and may not be effective.

  • Type: array
  • Default: No Default

GUESS_VECTOR

Guess vector type. Accepted values are UNIT for a unit vector guess NUM_ROOTS and NUM_INIT_VECS must both be 1); H0_BLOCK to use eigenvectors from the H0 BLOCK submatrix (default); DFILE to use NUM_ROOTS previously converged vectors in the D file; IMPORT to import a guess previously exported from a CI computation (possibly using a different CI space)

  • Type: string
  • Possible Values: UNIT, H0_BLOCK, DFILE, IMPORT
  • Default: H0_BLOCK

NUM_INIT_VECS

The number of initial vectors to use in the CI iterative procedure. Defaults to the number of roots.

  • Type: integer
  • Default: 0

REFERENCE_SYM

Irrep for CI vectors; -1 = find automatically. This option allows the user to look for CI vectors of a different irrep than the reference. This probably only makes sense for Full CI, and it would probably not work with unit vector guesses. Numbering starts from zero for the totally-symmetric irrep.

  • Type: integer
  • Default: -1

Expert File Handling

HD_OTF

Do compute the diagonal elements of the Hamiltonian matrix on-the-fly? Otherwise, a diagonal element vector is written to a separate file on disk.

NO_DFILE

Do use the last vector space in the BVEC file to write scratch DVEC rather than using a separate DVEC file? (Only possible if NUM_ROOTS = 1.)

Expert General-Order Perturbation Theory

MPN_ORDER_SAVE

If 0, save the MPn energy; if 1, save the MP(2n-1) energy (if available from MPN_WIGNER = true); if 2, save the MP(2n-2) energy (if available from MPN_WIGNER = true).

  • Type: integer
  • Default: 0

MPN_SCHMIDT

Do employ an orthonormal vector space rather than storing the kth order wavefunction?

MPN_WIGNER

Do use Wigner formulas in the E_{text{mp}n} series?

PERTURB_MAGNITUDE

The magnitude of perturbation z in H = H_0 + z H_1

  • Type: double
  • Default: 1.0

Expert General-Order Coupled-Cluster

CC_FIX_EXTERNAL

Do fix amplitudes involving RAS I or RAS IV? Useful in mixed MP2-CC methods.

CC_FIX_EXTERNAL_MIN

Number of external indices before amplitude gets fixed by CC_FIX_EXTERNAL Experimental.

  • Type: integer
  • Default: 1

CC_MACRO

CC_MACRO = [ [ex_lvl, max_holes_I, max_parts_IV, max_I+IV], [ex_lvl, max_holes_I, max_parts_IV, max_I+IV], ... ] Optional additional restrictions on allowed exictations in coupled-cluster computations, based on macroconfiguration selection. For each sub-array, [ex_lvl, max_holes_I, max_parts_IV, max_I+IV], eliminate cluster amplitudes in which: [the excitation level (holes in I + II) is equal to ex_lvl] AND [there are more than max_holes_I holes in RAS I, there are more than max_parts_IV particles in RAS IV, OR there are more than max_I+IV quasiparticles in RAS I + RAS IV].

  • Type: array
  • Default: No Default

CC_MIXED

Do ignore block if num holes in RAS I and II is > cc_ex_lvl and if any indices correspond to RAS I or IV (i.e., include only all-active higher excitations)?

CC_UPDATE_EPS

Do update T amplitudes with orbital eigenvalues? (Usually would do this). Not doing this is experimental.

CC_VARIATIONAL

Do use variational energy expression in CC computation? Experimental.

Expert Alternative Algorithms

BENDAZZOLI

Do use some routines based on the papers of Bendazzoli et al. to calculate sigma? Seems to be slower and not worthwhile; may disappear eventually. Works only for full CI and I don’t remember if I could see how their clever scheme might be extended to RAS in general.

FCI_STRINGS

Do store strings specifically for FCI? (Defaults to TRUE for FCI.)

REPL_OTF

Do string replacements on the fly in DETCI? Can save a gigantic amount of memory (especially for truncated CI’s) but is somewhat flaky and hasn’t been tested for a while. It may work only works for certain classes of RAS calculations. The current code is very slow with this option turned on.

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