tardis.workflows.simple_tardis_workflow module¶
- class tardis.workflows.simple_tardis_workflow.SimpleTARDISWorkflow(configuration)[source]¶
Bases:
WorkflowLogging
- check_convergence(estimated_values)[source]¶
Check convergence status for a dict of estimated values
- Parameters:
- estimated_valuesdict
Estimates to check convergence
- Returns:
- bool
If convergence has occurred
- enable_virtual_packet_logging = False¶
- get_convergence_estimates(transport_state)[source]¶
Compute convergence estimates from the transport state
- Parameters:
- transport_stateMonteCarloTransportState
Transport state object to compute estimates
- Returns:
- dict
Convergence estimates
- EstimatedRadiationFieldProperties
Dilute radiation file and j_blues dataclass
- initialize_spectrum_solver(transport_state, virtual_packet_energies=None)[source]¶
Set up the spectrum solver
- Parameters:
- transport_stateMonteCarloTransportState
The transport state to init with
- virtual_packet_energiesndarray, optional
Array of virtual packet energies binned by frequency, by default None
- log_level = None¶
- show_progress_bars = False¶
- solve_montecarlo(opacity_states, no_of_real_packets, no_of_virtual_packets=0)[source]¶
Solve the MonteCarlo process
- Parameters:
- opacity_statesdict
Opacity and (optionally) Macro Atom states.
- no_of_real_packetsint
Number of real packets to simulate
- no_of_virtual_packetsint, optional
Number of virtual packets to simulate per interaction, by default 0
- Returns:
- MonteCarloTransportState
The new transport state after simulation
- ndarray
Array of unnormalized virtual packet energies in each frequency bin
- solve_opacity()[source]¶
Solves the opacity state and any associated objects
- Returns:
- dict
- opacity_statetardis.opacities.opacity_state.OpacityState
State of the line opacities
- macro_atom_statetardis.opacities.macro_atom.macro_atom_state.MacroAtomState or None
State of the macro atom
- solve_plasma(estimated_radfield_properties)[source]¶
Update the plasma solution with the new radiation field estimates
- Parameters:
- estimated_radfield_propertiesEstimatedRadiationFieldProperties
The radiation field properties to use for updating the plasma
- Raises:
- ValueError
If the plasma solver radiative rates type is unknown
- solve_simulation_state(estimated_values)[source]¶
Update the simulation state with new inputs computed from previous iteration estimates.
- Parameters:
- estimated_valuesdict
Estimated from the previous iterations
- specific_log_level = None¶