{ "type":"nomad_meta_info_1_0", "name":"cp2k_general", "description":"meta info used by the CP2K parser, all names are expected to start with x_cp2k_", "dependencies":[{ "relativePath":"common.meta_dictionary.json" },{ "relativePath":"public.meta_dictionary.json" }], "metaInfos":[{ "name":"x_cp2k_atom_forces", "description":"Forces acting on the atoms in this Quickstep calculation.", "superNames":["x_cp2k_section_quickstep_calculation"], "units":"N", "dtypeStr":"f", "repeats":true, "shape":["number_of_atoms",3] },{ "name":"x_cp2k_atomic_kinds", "description":"The number of atomic kinds in the calculation.", "superNames":["x_cp2k_section_total_numbers"], "dtypeStr":"i" },{ "name":"x_cp2k_atoms", "description":"The number of atoms in the calculation.", "superNames":["x_cp2k_section_total_numbers"], "dtypeStr":"i" },{ "name":"x_cp2k_basis_set_filename", "description":"The name of the basis set file.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_basis_set_norm_type", "description":"Norm type.", "superNames":["x_cp2k_section_kind_basis_set"], "dtypeStr":"i" },{ "name":"x_cp2k_basis_set_number_of_cartesian_basis_functions", "description":"Number of Cartesian basis functions.", "superNames":["x_cp2k_section_kind_basis_set"], "dtypeStr":"i" },{ "name":"x_cp2k_basis_set_number_of_orbital_shell_sets", "description":"Number of orbital shell sets.", "superNames":["x_cp2k_section_kind_basis_set"], "dtypeStr":"i" },{ "name":"x_cp2k_basis_set_number_of_orbital_shells", "description":"Number of orbital shells.", "superNames":["x_cp2k_section_kind_basis_set"], "dtypeStr":"i" },{ "name":"x_cp2k_basis_set_number_of_primitive_cartesian_functions", "description":"Number of primitive Cartesian functions.", "superNames":["x_cp2k_section_kind_basis_set"], "dtypeStr":"i" },{ "name":"x_cp2k_basis_set_number_of_spherical_basis_functions", "description":"Number of spherical basis functions.", "superNames":["x_cp2k_section_kind_basis_set"], "dtypeStr":"i" },{ "name":"x_cp2k_cartesian_basis_functions", "description":"The number of Cartesian basis functions.", "superNames":["x_cp2k_section_total_numbers"], "dtypeStr":"i" },{ "name":"x_cp2k_coordinate_filename", "description":"The name of the coordinate file.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_dbcsr_communication_thread_load", "description":"Load of the communication thread.", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"i" },{ "name":"x_cp2k_dbcsr_multiplication_driver", "description":"DBCSR Multiplication driver", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_dbcsr_multiplication_size_stacks", "description":"DBCSR Multiplication size of stacks.", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"i" },{ "name":"x_cp2k_dbcsr_multiplication_stack_size", "description":"DBCSR Multiplication stack size.", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"i" },{ "name":"x_cp2k_dbcsr_multrec_recursion_limit", "description":"DBCSR Multrec recursion limit", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"i" },{ "name":"x_cp2k_dbcsr_use_communication_thread", "description":"Boolean indicating if communication thread is used.", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_dbcsr_use_mpi_combined_types", "description":"Boolean indicating if MPI combined types are used.", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_dbcsr_use_mpi_memory_allocation", "description":"Boolean indicating if MPI memory allocation is used.", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_dbcsr_use_subcommunicators", "description":"Boolean indicating if subcommunicators are used.", "superNames":["x_cp2k_section_dbcsr","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_electronic_kinetic_energy", "description":"Self-consistent electronic kinetic energy calculated with Quickstep", "superNames":["x_cp2k_section_quickstep_calculation"], "units":"J", "dtypeStr":"f" },{ "name":"x_cp2k_end_host", "description":"The name of the host machine this calculation ended on.", "superNames":["x_cp2k_section_end_information","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_end_id", "description":"The process id at the end of this run.", "superNames":["x_cp2k_section_end_information","program_info"], "dtypeStr":"i" },{ "name":"x_cp2k_end_path", "description":"The path where this calculation ended.", "superNames":["x_cp2k_section_end_information","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_end_time", "description":"The ending time for this run.", "superNames":["x_cp2k_section_end_information","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_end_user", "description":"The name of the user at the end of the calculation.", "superNames":["x_cp2k_section_end_information","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_energy_change_scf_iteration", "description":"At each self-consistent field (SCF) iteration, change of total energy with respect to the previous SCF iteration.", "superNames":["x_cp2k_section_scf_iteration"], "units":"J", "dtypeStr":"f" },{ "name":"x_cp2k_energy_total", "description":"Value of the total energy (nuclei + electrons) calculated with Quickstep.", "superNames":["x_cp2k_section_quickstep_calculation"], "units":"J", "dtypeStr":"f" },{ "name":"x_cp2k_energy_total_scf_iteration", "description":"Total electronic energy calculated with xc_method during the self-consistent field (SCF) iterations.", "superNames":["x_cp2k_section_scf_iteration"], "units":"J", "dtypeStr":"f" },{ "name":"x_cp2k_energy_xc_scf_iteration", "description":"Exchange-correlation (XC) energy during the self-consistent field (SCF) iteration.", "superNames":["x_cp2k_section_scf_iteration"], "units":"J", "dtypeStr":"f" },{ "name":"x_cp2k_geminal_filename", "description":"The name of the geminal file.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_input_filename", "description":"The name of the CP2K input file that produced this calculation.", "superNames":["x_cp2k_section_program_information","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_kind_basis_set_name", "description":"The name of the orbital basis set used for this kind.", "superNames":["x_cp2k_section_kind_basis_set"], "dtypeStr":"C" },{ "name":"x_cp2k_kind_label", "description":"The label for this atomic kind.", "superNames":["x_cp2k_section_atomic_kind"], "dtypeStr":"C" },{ "name":"x_cp2k_kind_number", "description":"The atomic kind number. For each element there may be multiple kinds specified. This number differentiates them. Not the atomic number.", "superNames":["x_cp2k_section_atomic_kind"], "dtypeStr":"i" },{ "name":"x_cp2k_kind_number_of_atoms", "description":"The number of atoms with this kind.", "superNames":["x_cp2k_section_atomic_kind"], "dtypeStr":"C" },{ "name":"x_cp2k_local_part_of_gth_pseudopotential", "description":"Maximum angular momentum of the local part of the GTH pseudopotential.", "superNames":["x_cp2k_section_maximum_angular_momentum"], "dtypeStr":"i" },{ "name":"x_cp2k_md_barostat_temperature_average", "description":"Average barostat temperature in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_barostat_temperature_instantaneous", "description":"Instantaneous barostat temperature in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_barostat_time_constant", "description":"Barostat time constant.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"f", "unit":"s" },{ "name":"x_cp2k_md_cell_angle_a_average", "description":"Average cell vector a angle in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"rad" },{ "name":"x_cp2k_md_cell_angle_a_instantaneous", "description":"Instantaneous cell vector a angle in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"rad" },{ "name":"x_cp2k_md_cell_angle_b_average", "description":"Average cell vector b angle in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"rad" },{ "name":"x_cp2k_md_cell_angle_b_instantaneous", "description":"Instantaneous cell vector b angle in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"rad" },{ "name":"x_cp2k_md_cell_angle_c_average", "description":"Average cell vector c angle in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"rad" },{ "name":"x_cp2k_md_cell_angle_c_instantaneous", "description":"Instantaneous cell vector c angle in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"rad" },{ "name":"x_cp2k_md_cell_length_a_average", "description":"Average cell vector a length in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_md_cell_length_a_instantaneous", "description":"Instantaneous cell vector a length in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_md_cell_length_b_average", "description":"Average cell vector b length in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_md_cell_length_b_instantaneous", "description":"Instantaneous cell vector b length in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_md_cell_length_c_average", "description":"Average cell vector c length in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_md_cell_length_c_instantaneous", "description":"Instantaneous cell vector c length in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_md_conserved_quantity", "description":"Conserved quantity for this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"J" },{ "name":"x_cp2k_md_coordinates_filename", "description":"Name of the coordinate file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"C" },{ "name":"x_cp2k_md_coordinates_print_frequency", "description":"Print frequency for the coordinate file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"i" },{ "name":"x_cp2k_md_cpu_time_average", "description":"Average CPU time for this step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"s" },{ "name":"x_cp2k_md_cpu_time_instantaneous", "description":"Instantaneous CPU time for this step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"s" },{ "name":"x_cp2k_md_dump_filename", "description":"Name of the dump file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"C" },{ "name":"x_cp2k_md_dump_print_frequency", "description":"Print frequency for the dump file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"i" },{ "name":"x_cp2k_md_energies_filename", "description":"Name of the energies file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"C" },{ "name":"x_cp2k_md_energies_print_frequency", "description":"Print frequency for the energies file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"i" },{ "name":"x_cp2k_md_energy_drift_average", "description":"Average kinetic energy in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_energy_drift_instantaneous", "description":"Instantaneous energy drift in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_ensemble_type", "description":"The ensemble type in molecular dynamics.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"C" },{ "name":"x_cp2k_md_kinetic_energy_average", "description":"Average kinetic energy in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"J" },{ "name":"x_cp2k_md_kinetic_energy_instantaneous", "description":"Instantaneous kinetic energy in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"J" },{ "name":"x_cp2k_md_number_of_time_steps", "description":"Number of requested time steps in molecular dynamics.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"i", "unit":"J" },{ "name":"x_cp2k_md_potential_energy_average", "description":"Average potential energy for an MD step. Averaged over this and the previous steps.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"J" },{ "name":"x_cp2k_md_potential_energy_instantaneous", "description":"Instantaneous potential energy in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"J" },{ "name":"x_cp2k_md_pressure_average", "description":"Average pressure in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"Pa" },{ "name":"x_cp2k_md_pressure_instantaneous", "description":"Instantaneous pressure in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"Pa" },{ "name":"x_cp2k_md_print_frequency", "description":"The print frequency of molecular dynamics information in the CP2K output file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"i" },{ "name":"x_cp2k_md_simulation_cell_filename", "description":"Simulation cell filename.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"C" },{ "name":"x_cp2k_md_simulation_cell_print_frequency", "description":"Simulation cell print frequency.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"i" },{ "name":"x_cp2k_md_step_number", "description":"Step number.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"i" },{ "name":"x_cp2k_md_target_pressure", "description":"Target pressure for the barostat.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"f", "unit":"Pa" },{ "name":"x_cp2k_md_target_temperature", "description":"Thermostat target temperature.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_target_temperature_tolerance", "description":"Target temperature tolerance.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_temperature_average", "description":"Average temperature in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_temperature_instantaneous", "description":"Instantaneous temperature in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"K" },{ "name":"x_cp2k_md_time", "description":"Simulation time for this step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"s" },{ "name":"x_cp2k_md_time_step", "description":"Time step.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"f", "unit":"s" },{ "name":"x_cp2k_md_velocities_filename", "description":"Name of the velocities file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"C" },{ "name":"x_cp2k_md_velocities_print_frequency", "description":"Print frequency for the velocities file.", "superNames":["x_cp2k_section_md_settings","settings_molecular_dynamics"], "dtypeStr":"i" },{ "name":"x_cp2k_md_volume_average", "description":"Average cell volume in an MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m^3" },{ "name":"x_cp2k_md_volume_instantaneous", "description":"Instantaneous cell volume in this MD step.", "superNames":["x_cp2k_section_md_step"], "dtypeStr":"f", "unit":"m^3" },{ "name":"x_cp2k_method_name", "description":"The method name for this run.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_mm_potential_filename", "description":"The name of the MM potential file.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_non_local_part_of_gth_pseudopotential", "description":"Maximum angular momentum of the non-local part of the GTH pseudopotential.", "superNames":["x_cp2k_section_maximum_angular_momentum"], "dtypeStr":"i" },{ "name":"x_cp2k_optimization_energy", "description":"Energy for this optimization step.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"J" },{ "name":"x_cp2k_optimization_energy_change", "description":"Energy change for this optimization step.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"J" },{ "name":"x_cp2k_optimization_energy_decrease", "description":"Whether there has been energy decrease. YES or NO.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"C" },{ "name":"x_cp2k_optimization_gradient_convergence_limit", "description":"Convergence criterium for the maximum force component of the current configuration.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"m^-1*J" },{ "name":"x_cp2k_optimization_max_gradient", "description":"Max gradient for this optimization step.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"m^-1*J" },{ "name":"x_cp2k_optimization_max_gradient_convergence", "description":"Whether there is convergence in max gradient. YES or NO.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"C" },{ "name":"x_cp2k_optimization_max_step_size", "description":"Maximum step size for this optimization step.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_optimization_method", "description":"Optimization method for this step", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"C" },{ "name":"x_cp2k_optimization_rms_gradient", "description":"RMS gradient for this optimization step.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"m^-1*J" },{ "name":"x_cp2k_optimization_rms_gradient_convergence", "description":"Whether there is convergence in rms gradient. YES or NO.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"C" },{ "name":"x_cp2k_optimization_rms_step_size", "description":"RMS step size for this optimization step.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_optimization_rms_step_size_convergence", "description":"Whether there is convergence in rms step size. YES or NO.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"C" },{ "name":"x_cp2k_optimization_step_size_convergence", "description":"Whether there is convergence in step size. YES or NO.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"C" },{ "name":"x_cp2k_optimization_step_size_convergence_limit", "description":"Convergence criterium for the maximum geometry change between the current and the last optimizer iteration.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"m" },{ "name":"x_cp2k_optimization_used_time", "description":"Time used for this optimization step.", "superNames":["x_cp2k_section_geometry_optimization_step"], "dtypeStr":"f", "unit":"s" },{ "name":"x_cp2k_orbital_basis_functions", "description":"Maximum angular momentum of orbital basis functions.", "superNames":["x_cp2k_section_maximum_angular_momentum"], "dtypeStr":"i" },{ "name":"x_cp2k_planewave_cutoff", "description":"The plane-wave cutoff for the auxiliary basis.", "superNames":["x_cp2k_section_quickstep_settings"], "dtypeStr":"f" },{ "name":"x_cp2k_potential_filename", "description":"The name of the potential file.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_preferred_diagonalization_library", "description":"The name of the preferred diagonalization library.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_preferred_fft_library", "description":"The name of the preferred FFT library.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_primitive_cartesian_functions", "description":"The number of primitive Cartesian functions.", "superNames":["x_cp2k_section_total_numbers"], "dtypeStr":"i" },{ "name":"x_cp2k_program_compilation_datetime", "description":"The time when this program was compiled.", "superNames":["x_cp2k_section_program_information","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_quickstep_converged", "description":"Boolean indicating whether the quickstep SCF cycle converged or not.", "superNames":["x_cp2k_section_quickstep_calculation"], "dtypeStr":"b" },{ "name":"x_cp2k_quickstep_method", "description":"The method used for the Quickstep calculations (GPW, GAPW).", "superNames":["x_cp2k_section_quickstep_settings"], "dtypeStr":"C" },{ "name":"x_cp2k_restart_file_name", "description":"Name of the restart file.", "superNames":["x_cp2k_section_restart_information"], "dtypeStr":"C" },{ "name":"x_cp2k_restarted_quantity_name", "description":"Name of a restarted quantity.", "superNames":["x_cp2k_section_restart_information"], "dtypeStr":"C", "repeats":true },{ "name":"x_cp2k_run_type", "description":"The run type for this calculation.", "superNames":["x_cp2k_section_global_settings","settings_run"], "dtypeStr":"C" },{ "name":"x_cp2k_section_atomic_kind", "kindStr":"type_section", "description":"Information one atomic kind.", "superNames":["x_cp2k_section_atomic_kinds"] },{ "name":"x_cp2k_section_atomic_kinds", "kindStr":"type_section", "description":"Information about all the atomic kinds in this Quickstep calculation.", "superNames":["x_cp2k_section_quickstep_settings"] },{ "name":"x_cp2k_section_dbcsr", "kindStr":"type_section", "description":"The DBCSR (Distributed Block Compressed Sparse Row) information.", "superNames":["section_run","settings_run"] },{ "name":"x_cp2k_section_end_information", "kindStr":"type_section", "description":"Contains information about the ending conditions for this run.", "superNames":["section_run","program_info"] },{ "name":"x_cp2k_section_geometry_optimization", "kindStr":"type_section", "description":"CP2K geometry optimization information.", "superNames":["section_frame_sequence"] },{ "name":"x_cp2k_section_geometry_optimization_energy_reevaluation", "kindStr":"type_section", "description":"Information for the energy re-evaluation at the end of an optimization procedure.", "superNames":["x_cp2k_section_geometry_optimization"] },{ "name":"x_cp2k_section_geometry_optimization_step", "kindStr":"type_section", "description":"Contains information about the geometry optimization process for every optimization step.", "superNames":["x_cp2k_section_geometry_optimization"] },{ "name":"x_cp2k_section_global_settings", "kindStr":"type_section", "description":"Global settings for this calculation.", "superNames":["section_run","settings_run"] },{ "name":"x_cp2k_section_kind_basis_set", "kindStr":"type_section", "description":"Description of the basis set used for this kind.", "superNames":["x_cp2k_section_atomic_kind"] },{ "name":"x_cp2k_section_maximum_angular_momentum", "kindStr":"type_section", "description":"Contains the maximum angular momentum values used in the calculation.", "superNames":["x_cp2k_section_quickstep_settings"] },{ "name":"x_cp2k_section_md", "kindStr":"type_section", "description":"CP2K Molecular Dynamics information.", "superNames":["section_frame_sequence"] },{ "name":"x_cp2k_section_md_settings", "kindStr":"type_section", "description":"Settings for CP2K Molecular Dynamics.", "superNames":["section_sampling_method","settings_molecular_dynamics"] },{ "name":"x_cp2k_section_md_step", "kindStr":"type_section", "description":"Information from MD step.", "superNames":["x_cp2k_section_md"] },{ "name":"x_cp2k_section_program_information", "kindStr":"type_section", "description":"Contains information about the software version used for this run.", "superNames":["section_run","program_info"] },{ "name":"x_cp2k_section_quickstep_calculation", "kindStr":"type_section", "description":"Section for a CP2K QuickStep calculation.", "superNames":["section_run"] },{ "name":"x_cp2k_section_quickstep_settings", "kindStr":"type_section", "description":"Quickstep settings.", "superNames":["section_method"] },{ "name":"x_cp2k_section_restart_information", "kindStr":"type_section", "description":"Contains restart information for this calculation.", "superNames":["section_run"] },{ "name":"x_cp2k_section_scf_iteration", "kindStr":"type_section", "description":"Section for a CP2K QuickStep SCF iteration.", "superNames":["x_cp2k_section_quickstep_calculation"] },{ "name":"x_cp2k_section_startinformation", "kindStr":"type_section", "description":"Contains information about the starting conditions for this run.", "superNames":["section_run","program_info"] },{ "name":"x_cp2k_section_stress_tensor", "kindStr":"type_section", "description":"Section for stress tensor information.", "superNames":["x_cp2k_section_quickstep_calculation"] },{ "name":"x_cp2k_section_total_numbers", "kindStr":"type_section", "description":"The total number of different entities in the calculation.", "superNames":["x_cp2k_section_quickstep_settings"] },{ "name":"x_cp2k_section_vdw_d2_settings", "kindStr":"type_section", "description":"D2 settings.", "superNames":["x_cp2k_section_vdw_settings","settings_van_der_waals"] },{ "name":"x_cp2k_section_vdw_d3_settings", "kindStr":"type_section", "description":"D3 settings.", "superNames":["x_cp2k_section_vdw_settings","settings_van_der_waals"] },{ "name":"x_cp2k_section_vdw_element_settings", "kindStr":"type_section", "description":"Contains element-specific Van der Waals settings.", "superNames":["x_cp2k_section_vdw_d2_settings","settings_van_der_waals"] },{ "name":"x_cp2k_section_vdw_settings", "kindStr":"type_section", "description":"Van der Waals settings.", "superNames":["section_method","settings_van_der_waals"] },{ "name":"x_cp2k_shell_sets", "description":"The number of shell sets in the calculation.", "superNames":["x_cp2k_section_total_numbers"], "dtypeStr":"i" },{ "name":"x_cp2k_shells", "description":"The number of shells.", "superNames":["x_cp2k_section_total_numbers"], "dtypeStr":"i" },{ "name":"x_cp2k_spherical_basis_functions", "description":"The number of Spherical basis functions.", "superNames":["x_cp2k_section_total_numbers"], "dtypeStr":"i" },{ "name":"x_cp2k_spin_restriction", "description":"Indicates the restriction applied for the spin (e.g. RKS).", "superNames":["x_cp2k_section_quickstep_settings"], "dtypeStr":"C" },{ "name":"x_cp2k_start_host", "description":"The name of the host machine this calculation started on.", "superNames":["x_cp2k_section_startinformation","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_start_id", "description":"The process id at the start of this run.", "superNames":["x_cp2k_section_startinformation","program_info"], "dtypeStr":"i" },{ "name":"x_cp2k_start_path", "description":"The path where this calculation started.", "superNames":["x_cp2k_section_startinformation","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_start_time", "description":"The starting time for this run.", "superNames":["x_cp2k_section_startinformation","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_start_user", "description":"The name of the user at the start of the calculation.", "superNames":["x_cp2k_section_startinformation","program_info"], "dtypeStr":"C" },{ "name":"x_cp2k_stress_tensor", "description":"A final value of the stress tensor in a Quickstep calculation", "superNames":["x_cp2k_section_stress_tensor"], "units":"Pa", "dtypeStr":"f", "shape":[3,3] },{ "name":"x_cp2k_stress_tensor_determinant", "description":"The determinant of the stress tensor.", "superNames":["x_cp2k_section_stress_tensor"], "dtypeStr":"f", "unit":"Pa**3" },{ "name":"x_cp2k_stress_tensor_eigenvalues", "description":"The eigenvalues of the stress tensor.", "superNames":["x_cp2k_section_stress_tensor"], "dtypeStr":"f", "shape":[3], "unit":"Pa" },{ "name":"x_cp2k_stress_tensor_eigenvectors", "description":"The eigenvectors of the stress tensor.", "superNames":["x_cp2k_section_stress_tensor"], "dtypeStr":"f", "shape":[3,3] },{ "name":"x_cp2k_stress_tensor_one_third_of_trace", "description":"1/3 of the trace of the stress tensor.", "superNames":["x_cp2k_section_stress_tensor"], "dtypeStr":"f", "unit":"Pa" },{ "name":"x_cp2k_svn_revision", "description":"The SVN revision number.", "superNames":["x_cp2k_section_program_information","program_info"], "dtypeStr":"i" },{ "name":"x_cp2k_vdw_bj_damping_name", "description":"Name of the BJ damping method.", "superNames":["x_cp2k_section_vdw_settings","settings_van_der_waals"], "dtypeStr":"C" },{ "name":"x_cp2k_vdw_cn_cutoff", "description":"Cutoff for CN calculation.", "superNames":["x_cp2k_section_vdw_d3_settings","settings_van_der_waals"], "dtypeStr":"f" },{ "name":"x_cp2k_vdw_cutoff_radius", "description":"Cutoff radius of the van der Waals method.", "superNames":["x_cp2k_section_vdw_settings","settings_van_der_waals"], "dtypeStr":"C" },{ "name":"x_cp2k_vdw_damping_factor", "description":"Exponential damping prefactor for the van der Waals method.", "superNames":["x_cp2k_section_vdw_d2_settings","settings_van_der_waals"], "dtypeStr":"C" },{ "name":"x_cp2k_vdw_name", "description":"Name of the van der Waals method.", "superNames":["x_cp2k_section_vdw_settings","settings_van_der_waals"], "dtypeStr":"C" },{ "name":"x_cp2k_vdw_parameter_c6", "description":"C6 parameter.", "superNames":["x_cp2k_section_vdw_element_settings","settings_van_der_waals"], "dtypeStr":"f" },{ "name":"x_cp2k_vdw_parameter_element_name", "description":"Name of the element.", "superNames":["x_cp2k_section_vdw_element_settings","settings_van_der_waals"], "dtypeStr":"C" },{ "name":"x_cp2k_vdw_parameter_radius", "description":"Radius parameter.", "superNames":["x_cp2k_section_vdw_element_settings","settings_van_der_waals"], "dtypeStr":"f" },{ "name":"x_cp2k_vdw_s6_scaling_factor", "description":"S6 scaling factor.", "superNames":["x_cp2k_section_vdw_d3_settings","settings_van_der_waals"], "dtypeStr":"f" },{ "name":"x_cp2k_vdw_s8_scaling_factor", "description":"S8 scaling factor.", "superNames":["x_cp2k_section_vdw_d3_settings","settings_van_der_waals"], "dtypeStr":"f" },{ "name":"x_cp2k_vdw_scaling_factor", "description":"Scaling factor.", "superNames":["x_cp2k_section_vdw_d2_settings","settings_van_der_waals"], "dtypeStr":"f" },{ "name":"x_cp2k_vdw_sr6_scaling_factor", "description":"SR6 scaling factor.", "superNames":["x_cp2k_section_vdw_d3_settings","settings_van_der_waals"], "dtypeStr":"f" },{ "name":"x_cp2k_vdw_type", "description":"Type of the van der Waals method.", "superNames":["x_cp2k_section_vdw_settings","settings_van_der_waals"], "dtypeStr":"C" }] }