------------------------------------ :mod:`openmc` -- Basic Functionality ------------------------------------ Handling nuclear data --------------------- .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.XSdata openmc.MGXSLibrary Simulation Settings ------------------- .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.SourceBase openmc.IndependentSource openmc.FileSource openmc.CompiledSource openmc.MeshSource openmc.SourceParticle openmc.VolumeCalculation openmc.Settings .. autosummary:: :toctree: generated :nosignatures: :template: myfunction.rst openmc.read_source_file openmc.write_source_file Material Specification ---------------------- .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.Material openmc.Materials Cross sections for nuclides, elements, and materials can be plotted using the following function: .. autosummary:: :toctree: generated :nosignatures: :template: myfunction.rst openmc.plot_xs Building geometry ----------------- .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.Plane openmc.XPlane openmc.YPlane openmc.ZPlane openmc.XCylinder openmc.YCylinder openmc.ZCylinder openmc.Sphere openmc.Cone openmc.XCone openmc.YCone openmc.ZCone openmc.Quadric openmc.XTorus openmc.YTorus openmc.ZTorus openmc.Halfspace openmc.Intersection openmc.Union openmc.Complement openmc.BoundingBox openmc.Cell openmc.Universe openmc.DAGMCUniverse openmc.RectLattice openmc.HexLattice openmc.Geometry Many of the above classes are derived from several abstract classes: .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.Surface openmc.Region openmc.Lattice .. _pythonapi_tallies: Constructing Tallies -------------------- .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.Filter openmc.UniverseFilter openmc.MaterialFilter openmc.MaterialFromFilter openmc.CellFilter openmc.CellFromFilter openmc.CellBornFilter openmc.CellInstanceFilter openmc.CollisionFilter openmc.SurfaceFilter openmc.MeshFilter openmc.MeshBornFilter openmc.MeshMaterialFilter openmc.MeshSurfaceFilter openmc.EnergyFilter openmc.EnergyoutFilter openmc.MuFilter openmc.MuSurfaceFilter openmc.PolarFilter openmc.AzimuthalFilter openmc.DistribcellFilter openmc.DelayedGroupFilter openmc.EnergyFunctionFilter openmc.LegendreFilter openmc.SpatialLegendreFilter openmc.SphericalHarmonicsFilter openmc.TimeFilter openmc.WeightFilter openmc.ZernikeFilter openmc.ZernikeRadialFilter openmc.ParentNuclideFilter openmc.ParticleFilter openmc.MeshMaterialVolumes openmc.Trigger openmc.TallyDerivative openmc.Tally openmc.Tallies Meshes ------ .. autosummary:: :toctree: generated :nosignatures: :template: myclassinherit.rst openmc.RegularMesh openmc.RectilinearMesh openmc.CylindricalMesh openmc.SphericalMesh openmc.UnstructuredMesh openmc.HexagonalMesh Geometry Plotting ----------------- .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.Plot openmc.WireframeRayTracePlot openmc.SolidRayTracePlot openmc.Plots Running OpenMC -------------- .. autosummary:: :toctree: generated :nosignatures: :template: myfunction.rst openmc.run openmc.calculate_volumes openmc.plot_geometry openmc.plot_inline openmc.search_for_keff Post-processing --------------- .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.Particle openmc.ParticleList openmc.ParticleTrack openmc.StatePoint openmc.Summary openmc.Track openmc.Tracks .. autosummary:: :toctree: generated :nosignatures: :template: myfunction.rst openmc.voxel_to_vtk The following classes and functions are used for functional expansion reconstruction. .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.ZernikeRadial .. autosummary:: :toctree: generated :nosignatures: :template: myfunction.rst openmc.legendre_from_expcoef Various classes may be created when performing tally slicing and/or arithmetic: .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.arithmetic.CrossScore openmc.arithmetic.CrossNuclide openmc.arithmetic.CrossFilter openmc.arithmetic.AggregateScore openmc.arithmetic.AggregateNuclide openmc.arithmetic.AggregateFilter Variance Reduction ------------------ .. autosummary:: :toctree: generated :nosignatures: :template: myclass openmc.WeightWindows openmc.WeightWindowsList openmc.WeightWindowGenerator .. autosummary:: :toctree: generated :nosignatures: :template: myfunction.rst openmc.hdf5_to_wws openmc.wwinp_to_wws Coarse Mesh Finite Difference Acceleration ------------------------------------------ CMFD is implemented in OpenMC and allows users to accelerate fission source convergence during inactive neutron batches. To use CMFD, the :class:`openmc.cmfd.CMFDRun` class executes OpenMC through the C API, solving the CMFD system between fission generations and modifying the source weights. Note that the :mod:`openmc.cmfd` module is not imported by default with the :mod:`openmc` namespace and needs to be imported explicitly. .. autosummary:: :toctree: generated :nosignatures: :template: myclass.rst openmc.cmfd.CMFDMesh openmc.cmfd.CMFDRun At the minimum, a CMFD mesh needs to be specified in order to run CMFD. Once the mesh and other optional properties are set, a simulation can be run with CMFD turned on using :meth:`openmc.cmfd.CMFDRun.run`.