Uses of Class
pulse.problem.schemes.rte.RTECalculationStatus
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Packages that use RTECalculationStatus Package Description pulse.problem.schemes This package deals with abstractions associated with finite differences in PULsE, including the definition ofGrids, which determine the partitioning rules for space and time variables.pulse.problem.schemes.rte Contains generic classes that act as a bridge between the specific implementation of radiative heat transfer and the heat problem solvers.pulse.problem.schemes.rte.dom Contains the implementation of the discrete ordinates method (DOM) for the solution of a anisotropic nonlinear radiative transfer equation.pulse.problem.schemes.rte.exact Contains classes for solving the radiative transfer equation in an absorbing-emitting medium (no scattering) using a semi-analytical approach.pulse.problem.schemes.solvers Contains various finite-difference solvers for the different problem statements available. -
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Uses of RTECalculationStatus in pulse.problem.schemes
Methods in pulse.problem.schemes that return RTECalculationStatus Modifier and Type Method Description RTECalculationStatusCoupledImplicitScheme. getCalculationStatus()Methods in pulse.problem.schemes with parameters of type RTECalculationStatus Modifier and Type Method Description voidCoupledImplicitScheme. setCalculationStatus(RTECalculationStatus calculationStatus) -
Uses of RTECalculationStatus in pulse.problem.schemes.rte
Methods in pulse.problem.schemes.rte that return RTECalculationStatus Modifier and Type Method Description RTECalculationStatusFluxes. checkArrays()Checks whether all stored values are finite.abstract RTECalculationStatusRadiativeTransferSolver. compute(double[] temperatureArray)Launches a calculation of the radiative transfer equation.static RTECalculationStatusRTECalculationStatus. valueOf(String name)Returns the enum constant of this type with the specified name.static RTECalculationStatus[]RTECalculationStatus. values()Returns an array containing the constants of this enum type, in the order they are declared.Methods in pulse.problem.schemes.rte with parameters of type RTECalculationStatus Modifier and Type Method Description voidRadiativeTransferSolver. fireStatusUpdate(RTECalculationStatus status)voidRTECalculationListener. onStatusUpdate(RTECalculationStatus status)Invoked when a sub-step of the RTE solution has finished. -
Uses of RTECalculationStatus in pulse.problem.schemes.rte.dom
Methods in pulse.problem.schemes.rte.dom that return RTECalculationStatus Modifier and Type Method Description RTECalculationStatusDiscreteOrdinatesMethod. compute(double[] tempArray)RTECalculationStatusFixedIterations. doIterations(AdaptiveIntegrator integrator)abstract RTECalculationStatusIterativeSolver. doIterations(AdaptiveIntegrator integrator)De-facto solves the radiative transfer problem iteratively.RTECalculationStatusSuccessiveOverrelaxation. doIterations(AdaptiveIntegrator integrator)RTECalculationStatusAdaptiveIntegrator. integrate()abstract RTECalculationStatusODEIntegrator. integrate()RTECalculationStatusTRBDF2. integrate()protected RTECalculationStatusIterativeSolver. sanityCheck(RTECalculationStatus status, int iterations)Methods in pulse.problem.schemes.rte.dom with parameters of type RTECalculationStatus Modifier and Type Method Description protected RTECalculationStatusIterativeSolver. sanityCheck(RTECalculationStatus status, int iterations) -
Uses of RTECalculationStatus in pulse.problem.schemes.rte.exact
Methods in pulse.problem.schemes.rte.exact that return RTECalculationStatus Modifier and Type Method Description RTECalculationStatusNonscatteringAnalyticalDerivatives. compute(double[] U)Evaluates fluxes and their derivatives using analytical formulae and the selected numerical quadrature.Usually works best with theChandrasekharsQuadratureRTECalculationStatusNonscatteringDiscreteDerivatives. compute(double[] U)RTECalculationStatusNonscatteringRadiativeTransfer. compute(double[] array)The superclass method will update the interpolation that the blackbody spectrum uses to evaluate the temperature profile and calculate the radiosities.ANORMALstatus is always returned. -
Uses of RTECalculationStatus in pulse.problem.schemes.solvers
Methods in pulse.problem.schemes.solvers with parameters of type RTECalculationStatus Modifier and Type Method Description voidExplicitCoupledSolver. setCalculationStatus(RTECalculationStatus calculationStatus)
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