Rythmos - Transient Integration for Differential Equations Version of the Day
Class List
Here are the classes, structs, unions and interfaces with brief descriptions:
Rythmos::AdjointModelEvaluator< Scalar >Standard concrete adjoint ModelEvaluator for time-constant mass matrix models
Rythmos::BackwardEulerStepper< Scalar >Simple concrete stepper subclass implementing an implicit backward Euler method
Rythmos::BackwardEulerStepperMomento< Scalar >Concrete momento class for the BackwardEulerStepper
Rythmos::BasicDiscreteAdjointStepperTester< Scalar >Concrete testing class for basic adjoint calculation
Rythmos::BreakPointInformerBase< Scalar >Interface for using breakpoints
Rythmos::CompositeIntegratorObserver< Scalar >Standard composite observer subclass
Rythmos::CubicSplineInterpolator< Scalar >Concrete implemenation of InterpolatorBase that implements cubic spline interpolation
Rythmos::DefaultIntegrator< Scalar >A concrete subclass for IntegratorBase that allows a good deal of customization
Rythmos::DiagonalImplicitRKModelEvaluator< Scalar >
EpetraExt::DiagonalTransientModelSimple transient diagonal model for an implicit or explicit ODE
Rythmos::ErrWtVecCalcAcceptingStepControlStrategyBase< Scalar >Mix-in interface for step control strategy objects that accept an external error weight calculation and WRMS norm
Rythmos::ExplicitRKStepper< Scalar >
Rythmos::ExplicitTaylorPolynomialStepper< Scalar >Implementation of Rythmos::Stepper for explicit Taylor polynomial time integration of ODEs
Rythmos::ForwardEulerStepper< Scalar >
Rythmos::ForwardEulerStepperMomento< Scalar >Concrete momento class for the ForwardEulerStepper
Rythmos::ForwardResponseSensitivityComputer< Scalar >Concrete utility class for computing (assembling) forward transient response sensitivities
Rythmos::ForwardResponseSensitivityComputerObserver< Scalar >Observer class that computes sensitivities at the end of each time step
Rythmos::ForwardSensitivityExplicitModelEvaluator< Scalar >Explicit forward sensitivity transient ModelEvaluator subclass
Rythmos::ForwardSensitivityImplicitModelEvaluator< Scalar >Forward sensitivity transient ModelEvaluator subclass
Rythmos::ForwardSensitivityIntegratorAsModelEvaluator< Scalar >Concrete Thyra::ModelEvaluator subclass that turns a forward ODE/DAE with an observation into a parameterized evaluation of p -> g with forward sensitivities DgDp
Rythmos::ForwardSensitivityModelEvaluatorBase< Scalar >Forward sensitivity transient ModelEvaluator node interface class
Rythmos::ForwardSensitivityStepper< Scalar >Foward sensitivity stepper concrete subclass
Rythmos::ForwardSensitivityStepperTester< Scalar >Concrete testing class for forward sensitivities
Rythmos::GaussQuadrature1D< Scalar >Specific implementation of 1D Gaussian based quadrature formulas
Rythmos::HermiteInterpolator< Scalar >
Rythmos::ImplicitBDFStepper< Scalar >
Rythmos::ImplicitRKModelEvaluator< Scalar >
Rythmos::ImplicitRKStepper< Scalar >
Rythmos::IntegrationControlStrategyAcceptingIntegratorBase< Scalar >Mix-in interface for integrator objects that accept an integration control strategy object to be used for evaluating steps and picking step-sizes & orders
Rythmos::IntegrationControlStrategyBase< Scalar >Base class for strategy objects that control integration by selecting step sizes for a stepper
Rythmos::IntegrationObserverBase< Scalar >Base class for strategy objects that observe and time integration by observing the stepper object
Rythmos::IntegratorBase< Scalar >Abstract interface for time integrators
Rythmos::IntegratorBuilder< Scalar >Concrete integrator builder class
Rythmos::InterpolationBuffer< Scalar >Concrete class for interpolation buffer functionality
Rythmos::InterpolationBufferAppenderAcceptingIntegratorBase< Scalar >Mix-in interface for integrator objects that accept an interpolationBufferAppender object to be used for appending to the trailing interpolation buffer
Rythmos::InterpolationBufferAppenderBase< Scalar >Base class for strategy objects that append data from one InterplationBufferBase object to another
Rythmos::InterpolationBufferBase< Scalar >Base class for an interpolation buffer
Rythmos::InterpolatorAcceptingObjectBase< Scalar >Mix-in interface for objects that accept an interpolator object
Rythmos::InterpolatorBase< Scalar >Base strategy class for interpolation functionality
Rythmos::LinearInterpolator< Scalar >Concrete implemenation of InterpolatorBase just just does simple linear interploation
Rythmos::MomentoBase< Scalar >Base class for a momento object
Rythmos::PointwiseInterpolationBufferAppender< Scalar >Concrete InterplationBufferAppender subclass that just transfers notes without any regard for accuracy or order
Rythmos::ResponseAndFwdSensPoint< Scalar >Simple class to combine a response and it's forward sensitivity at a time point
Rythmos::RKButcherTableauAcceptingStepperBase< Scalar >Mix-in interface stepper objects that accept an RK Butcher Tableau
Rythmos::SimpleIntegrationControlStrategy< Scalar >Base class for strategy objects that control integration by selecting step sizes for a stepper
Rythmos::SingleResidualModelEvaluator< Scalar >Decorator subclass for a steady-state version of a DAE for single-residual time stepper methods
Rythmos::SingleResidualModelEvaluatorBase< Scalar >Base class mix-in interface for single-residual model evaluators
Rythmos::SmartInterpolationBufferAppender< Scalar >Smart interplation buffer class
Rythmos::SolverAcceptingStepperBase< Scalar >Mix-in interface all implicit stepper objects that accept a nonlinear solver to be used to compute the timestep
Rythmos::StateAndForwardSensitivityModelEvaluator< Scalar >Combined State and Forward sensitivity transient ModelEvaluator subclass
Rythmos::StateSerializerStrategy< Scalar >Base class for serializing Rythmos state data
Rythmos::StepControlInfo< Scalar >Simple strict to aggregate integration/stepper control information
Rythmos::StepControlStrategyAcceptingStepperBase< Scalar >Mix-in interface for stepper objects that accept a step control strategy object to be used for evaluating steps and picking step-sizes & orders
Rythmos::StepControlStrategyBase< Scalar >The member functions in the StepControlStrategyBase move you between these states in the following fashion:
Rythmos::StepperAsModelEvaluator< Scalar >Concrete Thyra::ModelEvaluator subclass that takes a parameterized stepper and turns it into a model evaluator (p,t) ==> g
Rythmos::StepperBase< Scalar >Base class for defining stepper functionality
Rythmos::StepperValidator< Scalar >Class for validating steppers
Rythmos::StepStatus< Scalar >
Rythmos::TimeDiscretizedBackwardEulerModelEvaluator< Scalar >
Rythmos::TimeRange< TimeType >Represent a time range
Rythmos::TimeStepNonlinearSolver< Scalar >Simple undampended Newton solver designed to solve time step equations in accurate times-tepping methods
Rythmos::TrailingInterpolationBufferAcceptingIntegratorBase< Scalar >Mix-in interface for integrator objects that accept a trailing interpolation buffer object to be used for storing the results of integration
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