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.. | ||
cid_lapack.irp.f | ||
cid.irp.f | ||
H_apply.irp.f | ||
NEEDED_CHILDREN_MODULES | ||
README.rst |
CID ==== This is a test directory which builds a CID by setting the follwoing rules: * The only generator determinant is the Hartee-Fock (single-reference method) * All generated determinants are included in the wave function (no perturbative selection) These rules are set in the ``H_apply.irp.f`` file. Needed Modules ============== .. Do not edit this section. It was auto-generated from the .. by the `update_README.py` script. .. image:: tree_dependency.png * `Selectors_full <http://github.com/LCPQ/quantum_package/tree/master/src/Selectors_full>`_ * `SingleRefMethod <http://github.com/LCPQ/quantum_package/tree/master/src/SingleRefMethod>`_ Documentation ============= .. Do not edit this section. It was auto-generated from the .. by the `update_README.py` script. `cid <http://github.com/LCPQ/quantum_package/tree/master/src/CID/cid_lapack.irp.f#L1>`_ Undocumented `h_apply_cid <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_8#L408>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cid_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_8#L1>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cid_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_8#L264>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f#L13>`_ Undocumented `h_apply_cisd_selection_delta_rho_one_point <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L1287>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_delta_rho_one_point_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L767>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_delta_rho_one_point_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L1091>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_dipole_moment_z <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L6649>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_dipole_moment_z_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L6129>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_dipole_moment_z_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L6453>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L5117>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_epstein_nesbet_2x2 <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L5883>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_epstein_nesbet_2x2_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L5363>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_2x2_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L5687>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L4597>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L4921>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_sc2 <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L4351>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_epstein_nesbet_sc2_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L3831>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_sc2_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L4155>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_sc2_no_projected <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L3585>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_epstein_nesbet_sc2_no_projected_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L3065>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_sc2_no_projected_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L3389>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_sc2_projected <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L2819>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_epstein_nesbet_sc2_projected_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L2299>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_epstein_nesbet_sc2_projected_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L2623>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_h_core <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L2053>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_h_core_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L1533>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_h_core_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L1857>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_moller_plesset <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L521>`_ Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. `h_apply_cisd_selection_moller_plesset_diexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L1>`_ Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. `h_apply_cisd_selection_moller_plesset_monoexc <http://github.com/LCPQ/quantum_package/tree/master/src/CID/H_apply.irp.f_shell_10#L325>`_ Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. Needed Modules ============== .. Do not edit this section It was auto-generated .. by the `update_README.py` script. .. image:: tree_dependency.png * `Selectors_full <http://github.com/LCPQ/quantum_package/tree/master/plugins/Selectors_full>`_ * `SingleRefMethod <http://github.com/LCPQ/quantum_package/tree/master/plugins/SingleRefMethod>`_ Documentation ============= .. Do not edit this section It was auto-generated .. by the `update_README.py` script. `cid <http://github.com/LCPQ/quantum_package/tree/master/plugins/CID/cid_lapack.irp.f#L1>`_ Undocumented h_apply_cid Calls H_apply on the HF determinant and selects all connected single and double excitations (of the same symmetry). Auto-generated by the ``generate_h_apply`` script. h_apply_cid_diexc Undocumented h_apply_cid_diexcorg Generate all double excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided. h_apply_cid_diexcp Undocumented h_apply_cid_monoexc Generate all single excitations of key_in using the bit masks of holes and particles. Assume N_int is already provided.