| LCM::AAAModel< EvalT, Traits > | Nearly Incompressible AAA model |
| PHAL::Absorption< EvalT, Traits > | Evaluates absorption - only as a constant for now |
| AAdapt::AbstractAdapter | Abstract interface for representing the set of adaptation tools available |
| Albany::AbstractDiscretization | |
| Albany::AbstractFieldContainer | Abstract interface for a field container |
| LCM::AbstractFractureCriterion | Base class for fracture criteria |
| Albany::AbstractMeshStruct | |
| Albany::AbstractNodeFieldContainer | Abstract interface for an STK NodeField container |
| Albany::AbstractProblem | Abstract interface for representing a 1-D finite element problem |
| AlbPUMI::AbstractPUMIDiscretization | |
| AlbPUMI::AbstractPUMINodeFieldContainer | |
| Albany::AbstractResponseFunction | Abstract interface for representing a response function |
| Albany::AbstractSTKFieldContainer | Abstract interface for an STK field container |
| Albany::AbstractSTKMeshStruct | |
| Albany::AbstractSTKNodeFieldContainer | Abstract interface for an STK NodeField container |
| AAdapt::AcousticWave | |
| AAdapt::AdaptationFactory | A factory class to instantiate AbstractAdapter objects |
| Albany::Catalyst::Adapter | |
| AAdapt::AdaptiveModelFactory | |
| AAdapt::AdaptiveSolutionManager | |
| AAdapt::AerasCosineBell | |
| AAdapt::AerasHeaviside | |
| AAdapt::AerasPlanarCosineBell | |
| AAdapt::AerasRossbyHaurwitzWave | |
| AAdapt::AerasScharDensity | |
| AAdapt::AerasZonalFlow | |
| MOR::AffineReducedSpace | |
| Albany::AggregateScalarResponseFunction | A response function that aggregates together multiple response functions into one |
| Albany_NOXObserver | |
| Albany_RythmosObserver | |
| Albany::albany_stk_mesh_traits< Dim > | A Template for STK mesh classes that generate their own mesh |
| Albany::albany_stk_mesh_traits< 0 > | |
| Albany::albany_stk_mesh_traits< 1 > | |
| Albany::albany_stk_mesh_traits< 2 > | |
| Albany::albany_stk_mesh_traits< 3 > | |
| PHAL::AlbanyTraits | |
| MOR::AllSampleDofListProvider | |
| AAdapt::AnalyticFunction | |
| LCM::AnisotropicDamageModel< EvalT, Traits > | Constitutive Model Base Class |
| LCM::AnisotropicHyperelasticDamageModel< EvalT, Traits > | Constitutive Model Base Class |
| Albany::Application | |
| PHAL::ZipMap< KeySeq, ElemSeq >::CreatePair::apply< T1, T2 > | |
| PHAL::Workset::ApplyEvalT< T >::apply< EvalT > | |
| PHAL::Workset::ApplyVTS::apply< T > | |
| SPL_Traits::apply< T > | |
| PHAL::Workset::ApplyEvalT< T > | |
| PHAL::Workset::ApplyVTS | |
| QCAD::SolverResponseFn::ArrayRef | |
| Albany::AsciiSTKMesh2D | |
| Albany::AsciiSTKMeshStruct | |
| LCM::AssumedStrain< EvalT, Traits > | Deformation Gradient |
| MOR::AtomicBasisSource | |
| MOR::BasicEpetraMVSource | |
| Albany::BCUtils< BCTraits > | |
| LCM::BifurcationCheck< EvalT, Traits > | BifurcationCheck Evaluator |
| LCM::BiotCoefficient< EvalT, Traits > | Evaluates Biot's Coefficient, either as a constant or a truncated KL expansion |
| LCM::BiotModulus< EvalT, Traits > | Evaluates Biot modulus, either as a constant or a truncated KL expansion |
| PHAL::BuildSerializer< EvalT > | |
| PHAL::BuildSerializer< PHAL::AlbanyTraits::Jacobian > | |
| PHAL::BuildSerializer< PHAL::AlbanyTraits::Residual > | |
| PHAL::BuildSerializer< PHAL::AlbanyTraits::Tangent > | |
| MOR::BulkModification | |
| LCM::BulkModulus< EvalT, Traits > | Evaluates bulk modulus, either as a constant or a truncated KL expansion |
| PHAL::CahnHillChemTerm< EvalT, Traits > | |
| Albany::CahnHillProblem | Abstract interface for representing a 1-D finite element problem |
| PHAL::CahnHillRhoResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::CahnHillWResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::CalcInstantaneousCoords< EvalT, Traits > | |
| LCM::CapExplicit< EvalT, Traits > | CapExplicit stress response |
| LCM::CapExplicitModel< EvalT, Traits > | CapExplicit stress response |
| LCM::CapImplicit< EvalT, Traits > | CapImplicit stress response |
| LCM::CapImplicitModel< EvalT, Traits > | CapImplicit stress response |
| Cell | |
| Albany::CellSpecs | |
| Albany::CismSTKMeshStruct | |
| LCM::CMResidualCoarse< EvalT, Traits > | Concurrent Multiscale Residual Coarse |
| LCM::CMResidualFine< EvalT, Traits > | Concurrent Multiscale Residual Fine |
| MOR::CollocationMetricCriterion | |
| MOR::CollocationMetricCriterionFactory | |
| PHAL::ComprNSBodyForce< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::ComprNSProblem | Abstract interface for representing a 1-D finite element problem |
| PHAL::ComprNSResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::ComprNSViscosity< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::ComputeBasisFunctions< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Aeras::ComputeBasisFunctions< EvalT, Traits > | Finite Element Interpolation Evaluator |
| MOR::ConcatenatedEpetraMVSource | |
| PNP::ConcentrationResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::ConcurrentMultiscaleProblem | Definition for the ConcurrentMultiscale Problem |
| PHAL::Constant< EvalT, Traits > | |
| PHAL::Source_Functions::Constant< EvalT, Traits > | |
| AAdapt::ConstantFunction | |
| AAdapt::ConstantFunctionGaussianPerturbed | |
| AAdapt::ConstantFunctionPerturbed | |
| LCM::ConstitutiveModel< EvalT, Traits > | Constitutive Model Base Class |
| LCM::ConstitutiveModelInterface< EvalT, Traits > | Constitutive Model Interface |
| LCM::ConstitutiveModelParameters< EvalT, Traits > | Evaluates a selecltion of Constitutive Model Parameters Either as a constant or a truncated KL expansion |
| Albany::ConstructEvaluatorsOp< ProblemType > | |
| PHAL::ContravariantTargetMetricTensor< EvalT, Traits > | Finite Element Interpolation Evaluator |
| AAdapt::CopyRemesh | This class shows an example of adaptation where the new mesh is an identical copy of the old one |
| QCAD::CoupledPoissonSchrodinger | Epetra-based Model Evaluator for QCAD coupled poisson-schrodinger solver |
| QCAD::CoupledPS_NOXObserver | Coupled Poisson-Schrodinger observer |
| QCAD::CoupledPS_NOXObserverConstructor | Coupled Poisson-Schrodinger observer constructor (wrapper around factory) |
| QCAD::CoupledPS_NOXObserverFactory | Coupled Poisson-Schrodinger observer factory (creates observer) |
| QCAD::CoupledPSJacobian | An Epetra operator that evaluates the Jacobian of a QCAD coupled Poisson-Schrodinger problem |
| QCAD::CoupledPSPreconditioner | An Epetra operator that evaluates the Jacobian of a QCAD coupled Poisson-Schrodinger problem |
| PHAL::CreateLambdaKeyMap< KeySeq, F > | Create map needed for TypeKeyMap from a key sequence and a lambda expression (meta-function class or placeholder expression) |
| PHAL::ZipMap< KeySeq, ElemSeq >::CreatePair | |
| LCM::CreepModel< EvalT, Traits > | Creep Constitutive Model |
| LCM::CrystalPlasticityModel< EvalT, Traits > | CrystalPlasticity Plasticity Constitutive Model |
| LCM::CurrentCoords< EvalT, Traits > | Compute the current coordinates |
| LCM::DamageCoefficients< EvalT, Traits > | This evaluator computes the coefficients for the damage equation |
| LCM::DamageLS< EvalT, Traits > | Damage Length Scale, either as a constant or a truncated KL expansion |
| LCM::DamageResid< EvalT, Traits > | Damage Equation Evaluator |
| LCM::DamageSource< EvalT, Traits > | Damage Source |
| Albany::Catalyst::Decorator | |
| MOR::DefaultTruncatedReducedBasisSource | |
| LCM::DefGrad< EvalT, Traits > | Deformation Gradient |
| Dim | |
| PHAL::Dirichlet< PHAL::AlbanyTraits::Jacobian, Traits > | |
| PHAL::Dirichlet< PHAL::AlbanyTraits::Residual, Traits > | |
| PHAL::Dirichlet< PHAL::AlbanyTraits::Tangent, Traits > | |
| PHAL::DirichletAggregator< EvalT, Traits > | |
| PHAL::DirichletBase< EvalT, Traits > | Gathers solution values from the Newton solution vector into the nodal fields of the field manager |
| PHAL::DirichletCoordFunction< PHAL::AlbanyTraits::Jacobian, Traits, cfunc_traits > | |
| PHAL::DirichletCoordFunction< PHAL::AlbanyTraits::Residual, Traits, cfunc_traits > | |
| PHAL::DirichletCoordFunction< PHAL::AlbanyTraits::Tangent, Traits, cfunc_traits > | |
| PHAL::DirichletCoordFunction_Base< EvalT, Traits, cfunc_traits > | |
| PHAL::DirichletFactoryTraits< Traits > | Struct to define Evaluator objects for the EvaluatorFactory |
| Albany::DirichletTraits | Generic Functions to help define BC Field Manager |
| Albany::DiscretizationFactory | A factory class to instantiate AbstractDiscretization objects |
| Albany::DiscretizationSampleDofListProvider | |
| Albany::DiscretizationTransformation | |
| LCM::DislocationDensity< EvalT, Traits > | Dislocation Density Tensor |
| Albany::DistributedResponseFunction | Interface for distributed response functions |
| PHAL::DOFGradInterpolation< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::DOFGradInterpolation< PHAL::AlbanyTraits::Jacobian, Traits > | |
| PHAL::DOFGradInterpolation_noDeriv< EvalT, Traits > | |
| PHAL::DOFInterpolation< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::DOFInterpolation< PHAL::AlbanyTraits::Jacobian, Traits > | Specialization for Jacobian evaluation taking advantage of known sparsity |
| MOR::SampleDofListFactory::DofListProvider | |
| PHAL::DOFVecGradInterpolation< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::DOFVecGradInterpolation< PHAL::AlbanyTraits::Jacobian, Traits > | Specialization for Jacobian evaluation taking advantage of known sparsity |
| PHAL::DOFVecInterpolation< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::DOFVecInterpolation< PHAL::AlbanyTraits::Jacobian, Traits > | Specialization for Jacobian evaluation taking advantage of known sparsity |
| LCM::DruckerPragerModel< EvalT, Traits > | Constitutive Model Base Class |
| Dummy | |
| Albany::DummyParameterAccessor< EvalT, Traits > | |
| Albany::DynamicDataArray< T > | |
| Albany::EBSpecsStruct< Dim, traits > | Element block specs |
| LCM::EdgeLessThan | Check if edges are the same |
| Albany::EigendataStruct | |
| LCM::ElasticDamageModel< EvalT, Traits > | Constitutive Model Base Class |
| LCM::ElasticityDispErrResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::ElasticityProblem | Abstract interface for representing a 2-D finite element problem |
| LCM::ElasticityResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::ElasticModulus< EvalT, Traits > | Evaluates elastic modulus, either as a constant or a truncated KL expansion |
| Adapt::ElementSizeField< EvalT, Traits > | |
| Adapt::ElementSizeField< PHAL::AlbanyTraits::Residual, Traits > | |
| Adapt::ElementSizeFieldBase< EvalT, Traits > | Description |
| MOR::EntityDestructor | |
| Albany::Catalyst::EpetraDataArray | |
| MOR::EpetraMVSource | |
| MOR::EpetraMVSourceInputFileProvider | |
| MOR::EpetraMVSourceInstanceProvider | |
| MOR::EpetraSamplingOperator | |
| FELIX::EpsilonL1L2< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::EquivalentInclusionConductivity< EvalT, Traits > | Evaluates effective thermal conductivity |
| EvaluateException | |
| EvaluatorDerived | |
| QCAD::EvaluatorTools< PHAL::AlbanyTraits::Jacobian, Traits > | |
| QCAD::EvaluatorTools< PHAL::AlbanyTraits::Residual, Traits > | Specializations |
| QCAD::EvaluatorTools< PHAL::AlbanyTraits::Tangent, Traits > | |
| Albany::EvaluatorUtils< EvalT, Traits > | Generic Functions to construct evaluators more succinctly |
| EvaluatorWithBaseImpl | |
| exchange | |
| MOR::Extended_Epetra_LAPACK | |
| Albany::ExtrudedSTKMeshStruct | |
| Face | |
| LCM::FaceAverage< EvalT, Traits > | Computes the face average of a nodal value |
| LCM::FaceFractureCriteria< EvalT, Traits > | Face-centric Fracture Criteria Evaluator |
| Albany::FieldManagerScalarResponseFunction | Reponse function representing the average of the solution values |
| LCM::FieldNameMap | |
| QCAD::FieldValueScatterScalarResponse< EvalT, Traits > | |
| QCAD::FieldValueScatterScalarResponse< PHAL::AlbanyTraits::Jacobian, Traits > | |
| MOR::FileReducedBasisSource | |
| LCM::FirstPK< EvalT, Traits > | First Piola-Kirchhoff Stress |
| MOR::FirstVectorSubstractingSnapshotPreprocessor | |
| LCM::FloatingPoint | |
| AlbPUMI::FMDBDiscretization< Output > | |
| AlbPUMI::FMDBExodus | |
| AlbPUMI::FMDBMeshStruct | |
| AlbPUMI::FMDBVtk | |
| LCM::FractureCriterionRandom | Random fracture criterion given a probability of failure |
| MOR::FrobeniusNormCriterion | |
| MOR::FullStateReconstructor | |
| PHAL::GatherAuxData< EvalT, Traits > | Gathers auxilliary values from a workset auxData vector into the nodal fields of the field manager |
| PHAL::GatherBasalFriction< EvalT, Traits > | Gathers surface basal friction into the nodal fields of the field manager |
| Aeras::GatherCoordinateVector< EvalT, Traits > | Gathers Coordinates values from the Newton coordinates vector into the nodal fields of the field manager |
| PHAL::GatherCoordinateVector< EvalT, Traits > | Gathers Coordinates values from the Newton coordinates vector into the nodal fields of the field manager |
| PHAL::GatherCoordinateVector< PHAL::AlbanyTraits::Tangent, Traits > | |
| PHAL::GatherEigenvectors< EvalT, Traits > | Gathers solution values from the Newton solution vector into the nodal fields of the field manager |
| PHAL::GatherFlowFactor< EvalT, Traits > | Gathers surface flowFactor into the nodal fields of the field manager |
| PHAL::GatherSHeight< EvalT, Traits > | Gathers surface height into the nodal fields of the field manager |
| PHAL::GatherSolution< PHAL::AlbanyTraits::Jacobian, Traits > | |
| PHAL::GatherSolution< PHAL::AlbanyTraits::Residual, Traits > | |
| PHAL::GatherSolution< PHAL::AlbanyTraits::Tangent, Traits > | |
| PHAL::GatherSolutionBase< EvalT, Traits > | Gathers solution values from the Newton solution vector into the nodal fields of the field manager |
| PHAL::GatherSurfaceVelocity< EvalT, Traits > | Gathers surface velocity into the nodal fields of the field manager |
| PHAL::GatherTemperature< EvalT, Traits > | Gathers surface temperature into the nodal fields of the field manager |
| PHAL::GatherThickness< EvalT, Traits > | Gathers surface basal friction into the nodal fields of the field manager |
| PHAL::GatherVelocityRMS< EvalT, Traits > | Gathers surface velocity into the nodal fields of the field manager |
| AAdapt::GaussCos | |
| PHAL::Source_Functions::Gaussian< EvalT > | |
| AAdapt::GaussianPress | |
| MOR::GaussNewtonMetricOperatorFactory | |
| MOR::GaussNewtonOperatorFactory | |
| MOR::GaussNewtonOperatorFactoryBase< Derived > | |
| AAdapt::GaussSin | |
| QCAD::GenEigensolver | Epetra-based Model Evaluator for QCAD Generalized Eigensolver |
| MOR::GeneralizedCoordinatesNOXObserver | |
| MOR::GeneralizedCoordinatesOutput | |
| MOR::GeneralizedCoordinatesRythmosObserver | |
| Albany::GenericSTKFieldContainer< Interleaved > | |
| Albany::GenericSTKMeshStruct | |
| PHAL::TypeKeyMap< TypeMap >::GetObjectConstRefType< T > | Meta-function for getting the object const-reference type indexed by T |
| PHAL::TypeKeyMap< TypeMap >::GetObjectRefType< T > | Meta-function for getting the object reference type indexed by T |
| PHAL::TypeKeyMap< TypeMap >::GetObjectTypeAndPos< T > | Meta-function for getting the object type indexed by T |
| Albany::GPAMProblem | Abstract interface for representing a 1-D finite element problem |
| PHAL::GPAMResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::GradientDamageProblem | |
| LCM::GradientElementLength< EvalT, Traits > | Compute element length in the direction of the solution gradient (cf |
| MOR::GreedyAtomicBasisSample | |
| QCAD::GreensFunctionTunnelingSolver | |
| Albany::Catalyst::GridImplementation | |
| LCM::GursonHMRModel< EvalT, Traits > | Gurson Finite Deformation Model |
| LCM::GursonModel< EvalT, Traits > | Gurson Finite Deformation Model |
| LCM::HardeningModulus< EvalT, Traits > | Evaluates hardening modulus, either as a constant or a truncated KL expansion |
| MOR::Hdf5MVInputFile | |
| MOR::Hdf5MVOutputFile | |
| LCM::HDiffusionDeformationMatterResidual< EvalT, Traits > | This evaluator computes the residue of the hydrogen concentration equilibrium equation |
| PHAL::HeatEqResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::HeatProblem | Abstract interface for representing a 1-D finite element problem |
| Albany::Helmholtz2DProblem | Abstract interface for representing a 1-D finite element problem |
| PHAL::HelmholtzResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::HydFractionResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::HydMorphProblem | Abstract interface for representing a 1-D finite element problem |
| HYD::HydrideChemTerm< EvalT, Traits > | |
| HYD::HydrideCResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::HydrideProblem | Abstract interface for representing a 1-D finite element problem |
| HYD::HydrideStress< EvalT, Traits > | Finite Element Interpolation Evaluator |
| HYD::HydrideStressTerm< EvalT, Traits > | |
| HYD::HydrideWResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::HyperelasticDamageModel< EvalT, Traits > | Hyperelasticity with isotropic damage |
| MOR::IdentityBasisSource | |
| PHAL::IdentityCoordFunctionTraits< EvalT > | Interface for representing a coordinate function to be applied as a Dirichlet boundary condition |
| MOR::InlineSampleDofListProvider | |
| MOR::InputFileEpetraMVSource | |
| Albany::STKDiscretization::interp | Used when NetCDF output on a latitude-longitude grid is requested |
| LCM::IPtoNodalField< EvalT, Traits > | |
| LCM::IPtoNodalField< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::IPtoNodalFieldBase< EvalT, Traits > | Evaltuator to compute a nodal stress field |
| LCM::J2Damage< EvalT, Traits > | J2Stress with damage dependent response |
| LCM::J2FiberModel< EvalT, Traits > | Constitutive Model Base Class |
| LCM::J2Model< EvalT, Traits > | J2 Plasticity Constitutive Model |
| LCM::J2Stress< EvalT, Traits > | J2Stress stress response |
| PHAL::AlbanyTraits::Jacobian | |
| PHAL::JouleHeating< EvalT, Traits > | Joule heating source term for ThermoElectrostatics |
| PHAL::JThermConductivity< EvalT, Traits > | Evaluates thermal conductivity, either as a constant or a truncated KL expansion |
| LCM::KCPermeability< EvalT, Traits > | Evaluates permeability based on porosity through the Kozeny-Carman relation, either as a constant or a truncated KL expansion.The permeability is divided by viscosity |
| LCM::KfieldBC< PHAL::AlbanyTraits::Jacobian, Traits > | |
| LCM::KfieldBC< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::KfieldBC< PHAL::AlbanyTraits::Tangent, Traits > | |
| LCM::KfieldBC_Base< EvalT, Traits > | |
| LCM::Kinematics< EvalT, Traits > | Kinematics Evaluator |
| Albany::KLResponseFunction | A response function given by the KL decomposition of another response function |
| LCM::L2ProjectionResidual< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::LamentStress< EvalT, Traits > | Evaluates stress using the Library for Advanced Materials for Engineering with Never-ending Templates (LAMENT) |
| Albany::LameProblem | Abstract interface for representing a 2-D finite element problem |
| LCM::LameStress< EvalT, Traits > | |
| LCM::LameStress< PHAL::AlbanyTraits::Jacobian, Traits > | |
| LCM::LameStress< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::LameStress< PHAL::AlbanyTraits::Tangent, Traits > | |
| LCM::LameStressBase< EvalT, Traits > | Evaluates stress using the Library for Advanced Materials for Engineering (LAME) |
| PHAL::LangevinNoiseTerm< EvalT, Traits > | |
| Albany::LaplaceBeltramiProblem | Laplace Beltrami problem for r-adaptation problem |
| PHAL::LaplaceBeltramiResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::LaplaceResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::LatticeDefGrad< EvalT, Traits > | Lattice Deformation Gradient |
| Albany::Layouts | Struct to construct and hold DataLayouts |
| PHAL::LinComprNSBodyForce< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::LinComprNSProblem | Abstract interface for representing a 1-D finite element problem |
| PHAL::LinComprNSResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::LinearElasticModel< EvalT, Traits > | Constitutive Model Base Class |
| MOR::LinearReducedSpace | |
| AAdapt::LinearY | |
| PHAL::LoadStateField< EvalT, Traits > | LoadStateField |
| LCM::LocalNonlinearSolver< PHAL::AlbanyTraits::Jacobian, Traits > | |
| LCM::LocalNonlinearSolver< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::LocalNonlinearSolver< PHAL::AlbanyTraits::Tangent, Traits > | |
| LCM::LocalNonlinearSolver_Base< EvalT, Traits > | Local Nonlinear Solver Base class |
| PHAL::MapToPhysicalFrame< EvalT, Traits > | Finite Element Interpolation Evaluator |
| QCAD::MaterialDatabase | Centralized collection of material parameters |
| QCAD::mathVector | |
| MOR::MatrixMarketMVInputFile | |
| MOR::MatrixMarketMVOutputFile | |
| QCAD::maxDimPt | |
| MOR::MeanSubstractingSnapshotPreprocessor | |
| Albany::MechanicsProblem | Definition for the Mechanics Problem |
| LCM::MechanicsResidual< EvalT, Traits > | Mechanics Residual |
| AAdapt::MeshAdapt< SizeField > | |
| Albany::MeshGraph | |
| QCAD::MeshRegion< EvalT, Traits > | A utility class that encapsulates a defined region of a mesh |
| Albany::MeshSpecsStruct | |
| LCM::MultiScaleStressBase< EvalT, Traits >::MesoPt | |
| Albany::MesoScaleLinkProblem | Abstract interface for representing a 2-D finite element problem |
| LCM::MixtureSpecificHeat< EvalT, Traits > | This evaluator calculates thermal expansion of a bi-phase mixture through volume averaging |
| LCM::MixtureThermalExpansion< EvalT, Traits > | This evaluator calculates thermal expansion of a bi-phase mixture through volume averaging |
| Albany::ModelEvaluator | |
| Albany::ModelFactory | |
| PHAL::Source_Functions::Monotone | |
| LCM::MooneyRivlinModel< EvalT, Traits > | Constitutive Model Base Class |
| Albany::MORFacade | |
| Albany::MORFacadeImpl | |
| Albany::MpasSTKMeshStruct | |
| LCM::MultiScaleStress< EvalT, Traits > | |
| LCM::MultiScaleStress< PHAL::AlbanyTraits::Jacobian, Traits > | |
| LCM::MultiScaleStress< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::MultiScaleStress< PHAL::AlbanyTraits::Tangent, Traits > | |
| LCM::MultiScaleStressBase< EvalT, Traits > | |
| QCAD::MultiSolution_Observer | Multi-solution observer: allows output to exodus in which the fields from multiple |
| Albany::MultiSTKFieldContainer< Interleaved > | |
| MOR::MultiVectorInputFile | |
| MOR::MultiVectorInputFileFactory | |
| MOR::MultiVectorOutputFile | |
| MOR::MultiVectorOutputFileFactory | |
| PHAL::Source_Functions::MVExponential< EvalT, Traits > | |
| PHAL::Source_Functions::MVQuadratic< EvalT, Traits > | |
| Albany::NavierStokes | Abstract interface for representing a 1-D finite element problem |
| QCAD::nebImagePt | |
| LCM::Neohookean< EvalT, Traits > | Neohookean stress response |
| LCM::NeohookeanModel< EvalT, Traits > | Neohookean Model |
| PHAL::Neumann< PHAL::AlbanyTraits::Jacobian, Traits > | |
| PHAL::Neumann< PHAL::AlbanyTraits::Residual, Traits > | |
| PHAL::Neumann< PHAL::AlbanyTraits::Tangent, Traits > | |
| PHAL::NeumannAggregator< EvalT, Traits > | |
| PHAL::NeumannBase< EvalT, Traits > | Neumann boundary condition evaluator |
| PHAL::NeumannFactoryTraits< Traits > | |
| Albany::NeumannTraits | |
| PHAL::Source_Functions::NeutronFission< EvalT, Traits > | |
| Adapt::NodalDataBlock | This is a container class that deals with managing data values at the nodes of a mesh |
| Node | |
| AlbPUMI::NodeData< DataType, ArrayDim, traits > | |
| AlbPUMI::NodeData_Traits< DataType, ArrayDim > | |
| Albany::NodeData_Traits< DataType, ArrayDim > | |
| AlbPUMI::NodeData_Traits< T, 1 > | |
| Albany::NodeData_Traits< T, 1 > | |
| AlbPUMI::NodeData_Traits< T, 2 > | |
| Albany::NodeData_Traits< T, 2 > | |
| Albany::NodeData_Traits< T, 3 > | |
| AlbPUMI::NodeData_Traits< T, 3 > | |
| Adapt::NodalDataBlock::NodeFieldSize | |
| Albany::NodeSetSolutionCullingStrategy | |
| Albany::NormInf | |
| Albany::NormTwo | |
| MOR::NOXEpetraCompositeObserver | |
| Albany::NOXObserverConstructor | |
| Albany::NOXObserverFactory | |
| PHAL::NSBodyForce< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::NSContinuityResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::NSContravarientMetricTensor< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::NSForchheimerTerm< EvalT, Traits > | |
| PHAL::NSMaterialProperty< EvalT, Traits > | Evaluates thermal conductivity, either as a constant or a truncated KL expansion |
| PHAL::NSMomentumResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::NSNeutronEqResid< EvalT, Traits > | |
| PHAL::NSPermeabilityTerm< EvalT, Traits > | |
| PHAL::NSRm< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::NSTauM< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::NSTauT< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::NSThermalEqResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| MOR::ObserverFactory | |
| Albany::ObserverImpl | |
| Albany::ODEProblem | Abstract interface for representing a 1-D finite element problem |
| PHAL::ODEResid< EvalT, Traits > | |
| Albany::OrdinarySTKFieldContainer< Interleaved > | |
| MOR::Pair< First, Second > | |
| ParameterAccessor | |
| LCM::PeridigmForce< EvalT, Traits > | |
| LCM::PeridigmForce< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::PeridigmForceBase< EvalT, Traits > | Evaluates nodal forces through a code coupling with the Peridigm peridynamics code |
| Albany::PeridigmProblem | Interface to Peridigm peridynamics code |
| Albany::PeriodicBCStruct | Small container to hold periodicBC info for use in setting coordinates |
| QCAD::Permittivity< EvalT, Traits > | Evaluates thermal conductivity, either as a constant or a truncated KL expansion |
| MOR::PetrovGalerkinOperatorFactory | |
| Albany::PiroObserver | |
| LCM::PisdWdF< EvalT, Traits > | Nonlinear Elasticity Energy Potential |
| Albany::PNPProblem | Abstract interface for representing a 1-D finite element problem |
| Point | |
| QCAD::PoissonSource< EvalT, Traits >::PointCharge | Point Charge parameters |
| PHAL::Source_Functions::PointSource< EvalT, Traits > | |
| QCAD::PoissonDirichlet< EvalT, Traits > | Dirichlet Evaluator for QCAD Poisson Problem |
| QCAD::PoissonNeumann< EvalT, Traits > | Neumann Evaluator for QCAD Poisson Problem |
| QCAD::PoissonProblem | Abstract interface for representing a 1-D finite element problem |
| QCAD::PoissonResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| QCAD::PoissonSource< EvalT, Traits > | Evaluates Poisson Source Term |
| QCAD::PoissonSource< EvalT, Traits >::PoissonSourceSetupInfo | |
| LCM::PoissonsRatio< EvalT, Traits > | Evaluates poissons ratio, either as a constant or a truncated KL expansion |
| Albany::PoroElasticityProblem | Problem definition for Poro-Elasticity |
| LCM::PoroElasticityResidMass< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::PoroElasticityResidMomentum< EvalT, Traits > | This evaluator calculate residual of the mass balance equation for the poromechanics problem |
| LCM::Porosity< EvalT, Traits > | Evaluates porosity, either as a constant or a truncated KL expansion |
| PNP::PotentialResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::Catalyst::Adapter::Private | |
| Albany::ProblemFactory | A factory class to instantiate AbstractProblem objects |
| LCM::Projection | |
| MOR::ProjectionError | |
| MOR::ProjectionErrorObserver | |
| Albany::ProjectionProblem | Problem definition for solid mechanics problem with projection |
| AlbPUMI::QPData< DataType, Dim, traits > | |
| AlbPUMI::QPData_Traits< DataType, Dim > | |
| AlbPUMI::QPData_Traits< T, 1 > | |
| AlbPUMI::QPData_Traits< T, 2 > | |
| AlbPUMI::QPData_Traits< T, 3 > | |
| AlbPUMI::QPData_Traits< T, 4 > | |
| QuadPoint | |
| PHAL::Source_Functions::Quadratic< EvalT, Traits > | |
| AAdapt::RandomCriterion | Random fracture criterion |
| AAdapt::RandomFracture | Adaptation class for random fracture |
| Albany::ReactorNetworkModel | |
| LCM::RecoveryModulus< EvalT, Traits > | Evaluates recovery modulus, either as a constant, or temperature dependent |
| MOR::ReducedBasisElements | |
| MOR::ReducedBasisFactory | |
| MOR::ReducedBasisRepository | |
| MOR::ReducedBasisSource | |
| MOR::ReducedJacobianFactory | |
| MOR::ReducedOperatorFactory | |
| MOR::ReducedOrderModelEvaluator | |
| MOR::ReducedOrderModelFactory | |
| MOR::ReducedSpace | |
| MOR::ReducedSpaceFactory | |
| MOR::Detail::relative_magnitude_from_square | |
| PHAL::AlbanyTraits::Residual | |
| QCAD::ResponseCenterOfMass< EvalT, Traits > | Response Description |
| Albany::ResponseFactory | Factory for creating response functions from a parameter list |
| QCAD::ResponseFieldAverage< EvalT, Traits > | Response Description |
| QCAD::ResponseFieldIntegral< EvalT, Traits > | Response Description |
| PHAL::ResponseFieldIntegral< EvalT, Traits > | Response Description |
| QCAD::ResponseFieldValue< EvalT, Traits > | Response Description |
| QCAD::ResponseRegionBoundary< EvalT, Traits > | QCAD Response which computes regions within the mesh based on field values, usually to determing sub-regions of the mesh for later processing (e.g |
| QCAD::ResponseSaddleValue< EvalT, Traits > | |
| QCAD::ResponseSaveField< EvalT, Traits > | Response Description |
| FELIX::ResponseSurfaceVelocityMismatch< EvalT, Traits > | Response Description |
| Albany::ResponseUtilities< EvalT, Traits > | Abstract interface for representing a 1-D finite element problem |
| LCM::RIHMRModel< EvalT, Traits > | Rate Independent Hardening Minus Recovery (RIHMR) Model |
| MOR::RythmosFullStateReconstructor | |
| Albany::RythmosObserverConstructor | |
| Albany::RythmosObserverFactory | |
| MOR::RythmosProjectionErrorObserver | |
| MOR::RythmosSnapshotCollectionObserver | |
| MOR::RythmosStepperFullStateWrapper | |
| QCAD::SaddleValueResponseFunction | Reponse function for finding saddle point values of a field |
| SampleDiscretization | |
| MOR::SampleDofListFactory | |
| Albany::SamplingBasedScalarResponseFunction | Response function implementation for SG and MP functions using a sampling-based scheme |
| LCM::SaturationExponent< EvalT, Traits > | Evaluates saturation exponent, either as a constant or a truncated KL expansion |
| LCM::SaturationModulus< EvalT, Traits > | Evaluates saturation modulus, either as a constant or a truncated KL expansion |
| Albany::SaveEigenData | Strategy for saving eigenvector/value data |
| Albany::SaveEigenDataConstructor | |
| PHAL::SaveNodalField< EvalT, Traits > | |
| PHAL::SaveNodalField< PHAL::AlbanyTraits::Residual, Traits > | |
| PHAL::SaveNodalFieldBase< EvalT, Traits > | Description |
| PHAL::SaveStateField< EvalT, Traits > | SaveStateField |
| PHAL::SaveStateField< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::ScalarL2ProjectionResidual< EvalT, Traits > | Finite Element Interpolation Evaluator |
| Albany::ScalarResponseFunction | Interface for scalar response functions |
| Teuchos::ScalarTraits< MOR::Pair< First, Second > > | |
| PHAL::ScatterResidual< PHAL::AlbanyTraits::Jacobian, Traits > | |
| PHAL::ScatterResidual< PHAL::AlbanyTraits::Residual, Traits > | |
| PHAL::ScatterResidual< PHAL::AlbanyTraits::Tangent, Traits > | |
| PHAL::ScatterResidualBase< EvalT, Traits > | Scatters result from the residual fields into the global (epetra) data structurs |
| PHAL::ScatterScalarResponse< EvalT, Traits > | |
| PHAL::ScatterScalarResponse< PHAL::AlbanyTraits::Residual, Traits > | |
| PHAL::ScatterScalarResponse< PHAL::AlbanyTraits::Tangent, Traits > | |
| PHAL::ScatterScalarResponseBase< EvalT, Traits > | Handles scattering of scalar response functions into epetra data structures |
| QCAD::SchrodingerDirichlet< PHAL::AlbanyTraits::Jacobian, Traits > | |
| QCAD::SchrodingerDirichlet< PHAL::AlbanyTraits::Residual, Traits > | |
| QCAD::SchrodingerDirichlet< PHAL::AlbanyTraits::Tangent, Traits > | |
| QCAD::SchrodingerDirichletAggregator< EvalT, Traits > | |
| QCAD::SchrodingerDirichletBase< EvalT, Traits > | Similar to PHAL::Dirichlet, but in Jacobian specialization zeros out the column as well as the row corresponding to a DBC to preserve the symmetry of the Schrodinger problem's Hamiltonian (its jacobian) |
| QCAD::SchrodingerPotential< EvalT, Traits > | Evaluates Poisson Source Term |
| QCAD::SchrodingerProblem | Abstract interface for representing a 1-D finite element problem |
| QCAD::SchrodingerResid< EvalT, Traits > | |
| Albany::SchwarzMultiscaleProblem | Definition for the SchwarzMultiscale Problem |
| PHAL::SeparableScatterScalarResponse< EvalT, Traits > | Handles scattering of separable scalar response functions into epetra data structures |
| PHAL::SeparableScatterScalarResponse< PHAL::AlbanyTraits::Jacobian, Traits > | |
| PHAL::SeparableScatterScalarResponseBase< EvalT, Traits > | Handles scattering of separable scalar response functions into epetra data structures |
| Teuchos::SerializationTraits< Ordinal, MOR::Pair< First, Second > > | |
| LCM::SetField< EvalT, Traits > | Sets values in a field, indended for testing |
| Aeras::ShallowWaterProblem | Abstract interface for representing a 1-D finite element problem |
| Aeras::ShallowWaterResid< EvalT, Traits > | ShallowWater equation Residual for atmospheric modeling |
| PHAL::SharedParameter< EvalT, Traits > | SharedParameter |
| LCM::ShearModulus< EvalT, Traits > | Evaluates shear modulus, either as a constant or a truncated KL expansion |
| Albany::SideStruct | |
| AAdapt::SinCos | |
| SizeFunction | |
| LCM::CrystalPlasticityModel< EvalT, Traits >::SlipSystemStruct | Struct to slip system information |
| MOR::SnapshotCollection | |
| MOR::SnapshotCollectionObserver | |
| MOR::SnapshotPreprocessor | |
| MOR::SnapshotPreprocessorFactory | |
| Albany::SolutionAverageResponseFunction | Reponse function representing the average of the solution values |
| Albany::SolutionCullingStrategyBase | |
| Albany::SolutionFileResponseFunction< VectorNorm > | Response function representing the difference from a stored vector on disk |
| Albany::SolutionMaxValueResponseFunction | Reponse function representing the average of the solution values |
| AAdapt::SolutionObserver | |
| Albany::SolutionResponseFunction | A response function given by (possibly a portion of) the solution |
| Albany::SolutionTwoNormResponseFunction | Reponse function representing the average of the solution values |
| Albany::SolutionValuesResponseFunction | Reponse function representing the average of the solution values |
| QCAD::Solver | Epetra-based Model Evaluator for QCAD solver |
| Albany::SolverFactory | A factory class to instantiate AbstractSolver objects |
| QCAD::SolverParamFn | |
| QCAD::SolverResponseFn | |
| QCAD::SolverSubSolver | |
| QCAD::SolverSubSolverData | |
| PHAL::Source< EvalT, Traits > | |
| PHAL::Source_Functions::Source_Base< EvalT, Traits > | |
| PHAL::Source_Functions::Spatial_Base< EvalT > | |
| SPL_Traits | |
| AAdapt::SPRSizeField | |
| MOR::Detail::square | |
| LCM::StabParameter< EvalT, Traits > | Evaluates StabParameter, either as a constant or a truncated KL expansion |
| Albany::StateArrays | |
| Albany::StateInfoStruct | |
| Albany::StateManager | Class to manage saved state data |
| Albany::StateStruct | Container to get state info from StateManager to STK. Made into a struct so |
| LCM::StateVariableRegistrationStruct | Struct to store state variable registration information |
| AAdapt::STKAdapt< SizeField > | |
| Albany::STKDiscretization | |
| LCM::stkEdge | Struct to store the data needed for creation or deletion of an edge in the stk mesh object |
| Albany::StkEpetraMVSource | |
| Albany::StkNodalBasisSource | |
| Albany::STKNodeField< DataType, ArrayDim, traits > | |
| AAdapt::STKUnifRefineField | |
| AAdapt::STKUnifUnrefineField | |
| FELIX::Stokes | Abstract interface for representing a 1-D finite element problem |
| FELIX::StokesBodyForce< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesContinuityResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesContravarientMetricTensor< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesFO | Abstract interface for representing a 1-D finite element problem |
| FELIX::StokesFOBodyForce< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesFOResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesL1L2 | Abstract interface for representing a 1-D finite element problem |
| FELIX::StokesL1L2BodyForce< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesL1L2Resid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesMomentumResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesRm< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::StokesTauM< EvalT, Traits > | Finite Element Interpolation Evaluator |
| AAdapt::StratSolver | This class implements a general parallel linear solver using the Stratimikos interface |
| LCM::Stress< EvalT, Traits > | Finite Element Interpolation Evaluator |
| AAdapt::StressFracture | Stress based fracture criterion |
| LCM::StVenantKirchhoffModel< EvalT, Traits > | Saint Venant - Kirchhoff Model |
| LCM::Subgraph | |
| MOR::SubstractingSnapshotPreprocessor | |
| LCM::SurfaceBasis< EvalT, Traits > | Surface Basis Evaluator |
| LCM::SurfaceCohesiveResidual< EvalT, Traits > | Compute the residual forces on a surface based on cohesive traction |
| LCM::SurfaceDiffusionResidual< EvalT, Traits > | Compute the residual forces on a surface |
| LCM::SurfaceHDiffusionDefResidual< EvalT, Traits > | Compute the balance of mass residual on the surface |
| Aeras::SurfaceHeight< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::SurfaceL2ProjectionResidual< EvalT, Traits > | Project a discrete scalar at integration point to an element-wise linear field |
| LCM::SurfaceScalarGradient< EvalT, Traits > | Construct a scalar gradient on a surface |
| LCM::SurfaceScalarGradientOperator< EvalT, Traits > | Construct a scalar gradient operator for the surface element |
| LCM::SurfaceScalarJump< EvalT, Traits > | Compute the scalar jump between two planes of the localization element |
| LCM::SurfaceTLPoroMassResidual< EvalT, Traits > | Compute the balance of mass residual on the surface |
| LCM::SurfaceVectorGradient< EvalT, Traits > | Construct a deformation gradient on a surface |
| LCM::SurfaceVectorJump< EvalT, Traits > | Compute the jump of a vector on a midplane surface |
| LCM::SurfaceVectorResidual< EvalT, Traits > | Compute the residual forces on a surface |
| PHAL::Source_Functions::Table< EvalT, Traits > | |
| PHAL::AlbanyTraits::Tangent | |
| AAdapt::TaylorGreenVortex | |
| PHAL::TEProp< EvalT, Traits > | Evaluates thermal conductivity, either as a constant or a truncated KL expansion |
| TET_ | |
| Albany::Catalyst::TeuchosArrayRCPDataArray< Scalar > | |
| PHAL::ThermalConductivity< EvalT, Traits > | Evaluates thermal conductivity, either as a constant or a truncated KL expansion |
| Albany::ThermoElasticityProblem | Abstract interface for representing a 2-D finite element problem |
| Albany::ThermoElectrostaticsProblem | Abstract interface for representing a 1-D finite element problem |
| LCM::ThermoMechanicalCoefficients< EvalT, Traits > | This evaluator computes the hydrogen concentration at trapped site through conservation of hydrogen atom |
| LCM::ThermoMechanicalEnergyResidual< EvalT, Traits > | ThermMechanical Energy Residual |
| LCM::ThermoMechanicalMomentumResidual< EvalT, Traits > | Thermo Mechancial Momentum Residual |
| Albany::ThermoMechanicalProblem | ThermoMechanical Coupling Problem |
| LCM::ThermoMechanicalStress< EvalT, Traits > | ThermoMechanical stress response |
| Albany::ThermoPoroPlasticityProblem | Problem definition for total lagrangian ThermoPoroplasticity |
| LCM::ThermoPoroPlasticityResidEnergy< EvalT, Traits > | Balance of energy residual for large deformation thermoporomechanics problem |
| LCM::ThermoPoroPlasticityResidMass< EvalT, Traits > | Balance of energy residual for large deformation thermoporomechanics problem |
| LCM::ThermoPoroPlasticityResidMomentum< EvalT, Traits > | This evaluator calculate residual of the linear momentum balance equation for the thermoporomechanics problem |
| AAdapt::ThyraAdaptiveModelEvaluator | Concrete Adapter subclass that takes an EpetraExt::ModelEvaluator object and wraps it as a AAdapt::ThyraAdaptiveModelEvaluator object |
| LCM::Time< EvalT, Traits > | Evaluates Time and the time step |
| LCM::TimeDepBC< PHAL::AlbanyTraits::Jacobian, Traits > | |
| LCM::TimeDepBC< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::TimeDepBC< PHAL::AlbanyTraits::Tangent, Traits > | |
| LCM::TimeDepBC_Base< EvalT, Traits > | |
| LCM::TimeTracBC< EvalT, Traits > | |
| LCM::TimeTracBC_Base< EvalT, Traits > | Time dependent Neumann boundary condition evaluator |
| LCM::TLElasResid< EvalT, Traits > | Total Lagrangian (Non-linear) Elasticity Residual |
| Albany::TLPoroPlasticityProblem | Problem definition for total lagrangian Poroplasticity |
| LCM::TLPoroPlasticityResidMass< EvalT, Traits > | Balance of mass residual for large deformation poromechanics problem |
| LCM::TLPoroPlasticityResidMomentum< EvalT, Traits > | This evaluator calculate residual of the mass balance equation for the poromechanics problem |
| LCM::TLPoroStress< EvalT, Traits > | This evaluator obtains effective stress and return total stress (i.e |
| Albany::TmplSTKMeshStruct< Dim, traits > | Template for STK internal mesh generation classes |
| LCM::Topology | |
| AAdapt::TopologyMod | Topology modification based adapter |
| LCM::TorsionBC< PHAL::AlbanyTraits::Jacobian, Traits > | |
| LCM::TorsionBC< PHAL::AlbanyTraits::Residual, Traits > | |
| LCM::TorsionBC< PHAL::AlbanyTraits::Tangent, Traits > | |
| LCM::TorsionBC_Base< EvalT, Traits > | |
| LCM::TotalStress< EvalT, Traits > | This evaluator compute total stress for poroelasticity problem |
| PHAL::TPSALaplaceResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::TPSLaplaceResid< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::TransportCoefficients< EvalT, Traits > | This evaluator computes various terms required for the |
| LCM::TransportResidual< EvalT, Traits > | This evaluator computes the residual for the transport equation |
| PHAL::Source_Functions::Trigonometric< EvalT, Traits > | |
| MOR::TrivialSnapshotPreprocessor | |
| PHAL::Source_Functions::TruncatedKL< EvalT, Traits > | |
| MOR::TruncatedReducedBasisSource< EpetraMVSourceProvider > | |
| LCM::TvergaardHutchinson< EvalT, Traits > | This evaluator surface traction based on Tvergaard-Hutchinson 1992 traction-separation law |
| LCM::TvergaardHutchinsonModel< EvalT, Traits > | TvergaardHutchinson Model |
| MOR::TwoNormCriterion | |
| PHAL::TypeKeyMap< TypeMap > | Container for storing objects indexed by types |
| PHX::TypeString< FadType > | |
| PHX::TypeString< PHAL::AlbanyTraits::Jacobian > | |
| PHX::TypeString< PHAL::AlbanyTraits::Residual > | |
| PHX::TypeString< PHAL::AlbanyTraits::Tangent > | |
| PHX::TypeString< RealType > | |
| Albany::UniformSolutionCullingStrategy | |
| AAdapt::UnifRefSizeField | |
| AAdapt::UnifSizeField | |
| LCM::UnitGradient< EvalT, Traits > | Compute solution gradient unit vector |
| Albany::UnSatPoroElasticityProblem | Problem definition for unsaturated Poro-Elasticity |
| LCM::UnSatPoroElasticityResidMass< EvalT, Traits > | Finite Element Interpolation Evaluator |
| LCM::VanGenuchtenPermeability< EvalT, Traits > | Evaluates permeability based on porosity through the van Genuchten equation, either as a constant or a truncated KL expansion.The permeability is divided by viscosity |
| LCM::VanGenuchtenSaturation< EvalT, Traits > | Evaluates saturation based on the van Genuchten equation, either as a constant or a truncated KL expansion.T |
| VecDim | |
| Vertex | |
| FELIX::Viscosity< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::ViscosityFO< EvalT, Traits > | Finite Element Interpolation Evaluator |
| FELIX::ViscosityL1L2< EvalT, Traits > | Finite Element Interpolation Evaluator |
| PHAL::Source_Functions::Wavelet_Base | |
| MOR::WindowedAtomicBasisSource | |
| PHAL::Workset | |
| Albany::WorksetArray< T > | |
| Albany::wsLid | |
| MOR::XMLFileSampleDofListProvider | |
| Aeras::XZScalarAdvectionProblem | Abstract interface for representing a 1-D finite element problem |
| Aeras::XZScalarAdvectionResid< EvalT, Traits > | XZScalarAdvection equation Residual for atmospheric modeling |
| LCM::YieldStrength< EvalT, Traits > | Evaluates yield strength, either as a constant or a truncated KL expansion |
| PHAL::ZipMap< KeySeq, ElemSeq > | Zip a sequence of keys and elements into a sequence of pair<key,element> |
