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NAME

       sc::SCF -

       The SCF class is the base for all classes that use a self-consistent
       field procedure to solve an effective one body problem.

SYNOPSIS

       #include <scf.h>

       Inherits sc::OneBodyWavefunction.

       Inherited by sc::CLSCF, sc::HSOSSCF, sc::OSSSCF, sc::TCSCF, and
       sc::UnrestrictedSCF.

   Public Member Functions
       SCF (StateIn &)
       SCF (const Ref< KeyVal > &)
           The KeyVal constructor.
       void save_data_state (StateOut &)
           Save the base classes (with save_data_state) and the members in the
           same order that the StateIn CTOR initializes them.
       RefSCMatrix oso_eigenvectors ()
           Returns the orthogonal MO (columns) to orthogonal-SO (rows)
           transformation matrix.
       RefDiagSCMatrix eigenvalues ()
           Returns the MO basis eigenvalues.
       int spin_unrestricted ()
           Return 1 if the alpha orbitals are not equal to the beta orbitals.
       virtual int n_fock_matrices () const =0
       virtual RefSymmSCMatrix fock (int)=0
       virtual RefSymmSCMatrix effective_fock ()=0
       virtual double one_body_energy ()
       virtual void two_body_energy (double &ec, double &ex)
       void symmetry_changed ()
           Call this if you have changed the molecular symmetry of the
           molecule contained by this MolecularEnergy.
       void obsolete ()
           Marks all results as being out of date.
       void print (std::ostream &o=ExEnv::out0()) const
           Print information about the object.

   Protected Types
       enum Access { Read, Write, Accum }

   Protected Member Functions
       virtual void init_threads ()
       virtual void done_threads ()
       virtual void compute ()
           Recompute at least the results that have compute true and are not
           already computed.
       virtual double compute_vector (double &, double enuclear)
       virtual Ref< SCExtrapError > extrap_error ()
       virtual void compute_gradient (const RefSCVector &)
       virtual void compute_hessian (const RefSymmSCMatrix &)
       virtual void savestate_iter (int)
       virtual void savestate_to_file (const std::string &filename)
       signed char * init_pmax (double *)
       RefSymmSCMatrix get_local_data (const RefSymmSCMatrix &, double *&,
           Access)
       virtual void initial_vector (int needv=1)
       void init_mem (int)
       void so_density (const RefSymmSCMatrix &d, double occ, int alp=1)
       int * read_occ (const Ref< KeyVal > &, const char *name, int nirrep)
       virtual void set_occupations (const RefDiagSCMatrix &)=0
       virtual void init_vector ()=0
       virtual void done_vector ()=0
       virtual double new_density ()=0
       virtual void reset_density ()=0
       virtual double scf_energy ()=0
       virtual Ref< SCExtrapData > extrap_data ()=0
       virtual void ao_fock (double accuracy)=0
       virtual void init_gradient ()=0
       virtual void done_gradient ()=0
       virtual RefSymmSCMatrix lagrangian ()=0
       virtual RefSymmSCMatrix gradient_density ()=0
       virtual void two_body_deriv (double *)=0
       virtual void init_hessian ()=0
       virtual void done_hessian ()=0

   Protected Attributes
       int need_vec_
       int compute_guess_
       int keep_guess_wfn_
       Ref< OneBodyWavefunction > guess_wfn_
       int always_use_guess_wfn_
       Ref< SelfConsistentExtrapolation > extrap_
       Ref< AccumH > accumdih_
       Ref< AccumH > accumddh_
       int maxiter_
       int dens_reset_freq_
       int reset_occ_
       int local_dens_
       size_t storage_
       int print_all_evals_
       int print_occ_evals_
       double level_shift_
       Ref< MessageGrp > scf_grp_
       Ref< ThreadGrp > threadgrp_
       int local_
       Ref< TwoBodyInt > * tbis_
       std::string previous_savestate_file_
       RefSCMatrix oso_scf_vector_
       RefSCMatrix oso_scf_vector_beta_
       RefSymmSCMatrix hcore_

Detailed Description

       The SCF class is the base for all classes that use a self-consistent
       field procedure to solve an effective one body problem.

Constructor & Destructor Documentation

   sc::SCF::SCF (const Ref< KeyVal > &)
       The KeyVal constructor. .IP "maxiter" 1c This integer specifies the
       maximum number of SCF iterations. The default is 40.

       density_reset_frequency
           This integer specifies how often, in term of SCF iterations, $
           reset to $D$. The default is 10.

       reset_occuptions
           Reassign the occupations after each iteration based on the
           eigenvalues. This only has an effect for molecules with higher than
           $C_1$ symmetry. The default is false.

       level_shift
           The default is 0.

       extrap
           This specifies an object of type SelfConsistentExtrapolation. The
           default is a DIIS object.

       memory
           The amount of memory that each processor may use. The default is 0
           (minimal memory use).

       local_density
           If this is true, a local copy of the density and $G$ matrix will be
           made on all nodes, even if a distributed matrix specialization is
           used. The default is true.

       guess_wavefunction
           This specifies the initial guess for the solution to the SCF
           equations. This can be either a OneBodyWavefunction object or the
           name of file that contains the saved state of a OneBodyWavefunction
           object. By default the one-electron hamiltonian will be
           diagonalized to obtain the initial guess.

       keep_guess_wavefunction
           The guess wavefunction is normally discarded after it is projected.
           Setting this boolean variable to true will cause the guess to be
           kept. This is useful when doing frequencies of symmetric molecules
           by finite displacements, because the wavefunction is lost whenever
           the molecule is displaced into lower symmetry.

       always_use_guess_wavefunction
           If the orbitals must be recomputed after they have already been
           computed once, then the old orbitals are used as the initial guess
           by default. However, if this option is true, then the guess
           wavefunction will be used, if available. If a guess wavefunction is
           not available, then a core Hamiltonian guess will be used. If this
           option is set to true, then keep_guess_wavefunction should also be
           set to true.

       print_evals
           Takes a boolean value. If true, print all eigenvalues after the SCF
           procedure converges. Takes a boolean value. The default is false.

       print_occ_evals
           Takes a boolean value. If true, print the occupied eigenvalues
           after the SCF procedure converges. The default is false.

Member Function Documentation

   virtual void sc::SCF::compute () [protected, virtual]
       Recompute at least the results that have compute true and are not
       already computed. This should only be called by Result’s members.

       Implements sc::Compute.

   RefDiagSCMatrix sc::SCF::eigenvalues () [virtual]
       Returns the MO basis eigenvalues.

       Implements sc::OneBodyWavefunction.

       Reimplemented in sc::UnrestrictedSCF.

   void sc::SCF::obsolete () [virtual]
       Marks all results as being out of date. Any subsequent access to
       results will cause Compute::compute() to be called.

       Reimplemented from sc::Wavefunction.

   RefSCMatrix sc::SCF::oso_eigenvectors () [virtual]
       Returns the orthogonal MO (columns) to orthogonal-SO (rows)
       transformation matrix.

       Implements sc::OneBodyWavefunction.

   void sc::SCF::save_data_state (StateOut &) [virtual]
       Save the base classes (with save_data_state) and the members in the
       same order that the StateIn CTOR initializes them. This must be
       implemented by the derived class if the class has data.

       Reimplemented from sc::OneBodyWavefunction.

       Reimplemented in sc::CLKS, sc::HSOSKS, sc::UKS, sc::CLHF, sc::CLSCF,
       sc::HSOSHF, sc::HSOSSCF, sc::OSSHF, sc::OSSSCF, sc::TCHF, sc::TCSCF,
       sc::UHF, and sc::UnrestrictedSCF.

   void sc::SCF::symmetry_changed () [virtual]
       Call this if you have changed the molecular symmetry of the molecule
       contained by this MolecularEnergy.

       Reimplemented from sc::OneBodyWavefunction.

       Reimplemented in sc::CLSCF, sc::HSOSSCF, sc::OSSSCF, sc::TCSCF, and
       sc::UnrestrictedSCF.

Author

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