Class List

Here are the classes, structs, unions and interfaces with brief descriptions:
Anasazi::AnasaziErrorAn exception class parent to all Anasazi exceptions
Anasazi::BasicEigenproblem< ScalarType, MV, OP >This provides a basic implementation for defining standard or generalized eigenvalue problems
Anasazi::BasicOrthoManager< ScalarType, MV, OP >An implementation of the Anasazi::MatOrthoManager that performs orthogonalization using (potentially) multiple steps of classical Gram-Schmidt
Anasazi::BasicOutputManager< ScalarType >Anasazi's basic output manager for sending information of select verbosity levels to the appropriate output stream
Anasazi::BasicSort< MagnitudeType >An implementation of the Anasazi::SortManager that performs a collection of common sorting techniques
Anasazi::BlockDavidson< ScalarType, MV, OP >This class implements a Block Davidson iteration, a preconditioned iteration for solving linear Hermitian eigenproblems
Anasazi::BlockDavidsonInitFailureBlockDavidsonInitFailure is thrown when the BlockDavidson solver is unable to generate an initial iterate in the BlockDavidson::initialize() routine
Anasazi::BlockDavidsonOrthoFailureBlockDavidsonOrthoFailure is thrown when the orthogonalization manager is unable to orthogonalize the preconditioned residual against (a.k.a. H) the current basis (a.k.a. V)
Anasazi::BlockDavidsonSolMgr< ScalarType, MV, OP >The BlockDavidsonSolMgr provides a powerful solver manager over the BlockDavidson eigensolver
Anasazi::BlockDavidsonState< ScalarType, MV >Structure to contain pointers to BlockDavidson state variables
Anasazi::BlockKrylovSchur< ScalarType, MV, OP >This class implements the block Krylov-Schur iteration, for solving linear eigenvalue problems
Anasazi::BlockKrylovSchurInitFailureBlockKrylovSchurInitFailure is thrown when the BlockKrylovSchur solver is unable to generate an initial iterate in the BlockKrylovSchur::initialize() routine
Anasazi::BlockKrylovSchurOrthoFailureBlockKrylovSchurOrthoFailure is thrown when the orthogonalization manager is unable to generate orthonormal columns from the new basis vectors
Anasazi::BlockKrylovSchurSolMgr< ScalarType, MV, OP >The Anasazi::BlockKrylovSchurSolMgr provides a flexible solver manager over the BlockKrylovSchur eigensolver
Anasazi::BlockKrylovSchurState< ScalarType, MulVec >Structure to contain pointers to BlockKrylovSchur state variables
Anasazi::Eigenproblem< ScalarType, MV, OP >This class defines the interface required by an eigensolver and status test class to compute solutions to an eigenproblem
Anasazi::Eigensolution< ScalarType, MV >Struct for storing an eigenproblem solution
Anasazi::Eigensolver< ScalarType, MV, OP >The Eigensolver is a templated virtual base class that defines the basic interface that any eigensolver will support
Anasazi::EpetraGenOpAdapter class for creating an operators often used in solving generalized eigenproblems
Anasazi::EpetraMultiVecBasic adapter class for Anasazi::MultiVec that uses Epetra_MultiVector
Anasazi::EpetraMultiVecFailureEpetraMultiVecFailure is thrown when a return value from an Epetra call on an Epetra_MultiVector is non-zero
Anasazi::EpetraOpBasic adapter class for Anasazi::Operator that uses Epetra_Operator
Anasazi::EpetraOpFailureEpetraOpFailure is thrown when a return value from an Epetra call on an Epetra_Operator is non-zero
Anasazi::EpetraSymMVOpAdapter class for creating a symmetric operator from an Epetra_MultiVector
Anasazi::EpetraSymOpAdapter class for creating a symmetric operator from an Epetra_Operator
Anasazi::EpetraW2SymMVOpAdapter class for creating a weighted symmetric operator from an Epetra_MultiVector and Epetra_Operator
Anasazi::EpetraWSymMVOpAdapter class for creating a weighted operator from an Epetra_MultiVector and Epetra_Operator
Anasazi::GenOrthoManager< ScalarType, MV, OP >
Anasazi::HelperTraits< ScalarType >Class which defines basic traits for working with different scalar types
Anasazi::ICGSOrthoManager< ScalarType, MV, OP >An implementation of the Anasazi::GenOrthoManager that performs orthogonalization using iterated classical Gram-Schmidt
Anasazi::IRTR< ScalarType, MV, OP >
Anasazi::LOBPCG< ScalarType, MV, OP >This class provides the Locally Optimal Block Preconditioned Conjugate Gradient (LOBPCG) iteration, a preconditioned iteration for solving linear Hermitian eigenproblems
Anasazi::LOBPCGInitFailureLOBPCGInitFailure is thrown when the LOBPCG solver is unable to generate an initial iterate in the LOBPCG::initialize() routine
Anasazi::LOBPCGOrthoFailureLOBPCGOrthoFailure is thrown when an orthogonalization attempt fails
Anasazi::LOBPCGRitzFailureLOBPCGRitzFailure is thrown when the LOBPCG solver is unable to continue a call to LOBPCG::iterate() due to a failure of the algorithm
Anasazi::LOBPCGSolMgr< ScalarType, MV, OP >The LOBPCGSolMgr provides a powerful solver manager over the LOBPCG eigensolver
Anasazi::LOBPCGState< ScalarType, MultiVector >Structure to contain pointers to Anasazi state variables
Anasazi::MatOrthoManager< ScalarType, MV, OP >Anasazi's templated virtual class for providing routines for orthogonalization and orthonormalization of multivectors using matrix-based inner products
Anasazi::MultiVec< ScalarType >Anasazi's templated virtual class for constructing a multi-vector that can interface with the MultiVecTraits class used by the eigensolvers
Anasazi::MultiVecTraits< ScalarType, MV >Virtual base class which defines basic traits for the multi-vector type
Anasazi::MultiVecTraits< double, Epetra_MultiVector >Template specialization of Anasazi::MultiVecTraits class using the Epetra_MultiVector class
Anasazi::MultiVecTraits< Scalar, Tpetra::MultiVector< Scalar, LO, GO, Node > >Template specialization of Anasazi::MultiVecTraits class using the Tpetra::MultiVector class
Anasazi::MultiVecTraits< ScalarType, MultiVec< ScalarType > >Template specialization of Anasazi::MultiVecTraits class using the Anasazi::MultiVec virtual base class
Anasazi::MultiVecTraits< ScalarType, Thyra::MultiVectorBase< ScalarType > >Template specialization of Anasazi::MultiVecTraits class using the Thyra::MultiVectorBase class
Anasazi::Operator< ScalarType >Anasazi's templated virtual class for constructing an operator that can interface with the OperatorTraits class used by the eigensolvers
Anasazi::OperatorErrorExceptions thrown to signal error in operator application
Anasazi::OperatorTraits< ScalarType, MV, OP >Virtual base class which defines basic traits for the operator type
Anasazi::OperatorTraits< double, Epetra_MultiVector, Epetra_Operator >Template specialization of Anasazi::OperatorTraits class using the Epetra_Operator virtual base class and Epetra_MultiVector class
Anasazi::OperatorTraits< ScalarType, MultiVec< ScalarType >, Operator< ScalarType > >Template specialization of Anasazi::OperatorTraits class using Anasazi::Operator and Anasazi::MultiVec virtual base classes
Anasazi::OperatorTraits< ScalarType, Thyra::MultiVectorBase< ScalarType >, Thyra::LinearOpBase< ScalarType > >Template specialization of Anasazi::OperatorTraits class using the Thyra::LinearOpBase virtual base class and Thyra::MultiVectorBase class
Anasazi::OrthoErrorException thrown to signal error in an orthogonalization manager method
Anasazi::OrthoManager< ScalarType, MV >Anasazi's templated virtual class for providing routines for orthogonalization and orthonormalization of multivectors
Anasazi::OutputManager< ScalarType >Output managers remove the need for the eigensolver to know any information about the required output. Calling isVerbosity( MsgType type ) informs the solver if it is supposed to output the information corresponding to the message type
Anasazi::ResNormNaNErrorResNormNaNError is thrown from StatusTestResNorm::checkStatus() when a NaN ("not a number") is detected among the residual norms returned by the eigensolver
Anasazi::RTRBase< ScalarType, MV, OP >This class is an abstract base class for Implicit Riemannian Trust-Region based eigensolvers. The class provides the interfaces shared by the IRTR solvers (e.g., getState() and initialize()) as well as the shared implementations (e.g., inner products)
Anasazi::RTRInitFailureRTRInitFailure is thrown when the RTR solver is unable to generate an initial iterate in the RTRBase::initialize() routine
Anasazi::RTROrthoFailureRTROrthoFailure is thrown when an orthogonalization attempt fails
Anasazi::RTRRitzFailureRTRRitzFailure is thrown when the RTR solver is unable to continue a call to RTRBase::iterate() due to a failure of the algorithm
Anasazi::RTRSolMgr< ScalarType, MV, OP >The Anasazi::RTRSolMgr provides a simple solver manager over the RTR eigensolver. For more information, see the discussion for RTRBase
Anasazi::RTRState< ScalarType, MV >Structure to contain pointers to RTR state variables
Anasazi::SimpleLOBPCGSolMgr< ScalarType, MV, OP >The Anasazi::SimpleLOBPCGSolMgr provides a simple solver manager over the LOBPCG eigensolver
Anasazi::SIRTR< ScalarType, MV, OP >
Anasazi::SolverManager< ScalarType, MV, OP >The Anasazi::SolverManager is a templated virtual base class that defines the basic interface that any solver manager will support
Anasazi::SolverUtils< ScalarType, MV, OP >Anasazi's templated, static class providing utilities for the solvers
Anasazi::SortManager< MagnitudeType >Anasazi's templated pure virtual class for managing the sorting of approximate eigenvalues computed by the eigensolver. A concrete implementation of this class is necessary
Anasazi::SortManagerErrorSortManagerError is thrown when the Anasazi::SortManager is unable to sort the numbers, due to some failure of the sort method or error in calling it
Anasazi::StatusTest< ScalarType, MV, OP >A pure virtual class for defining the status tests for the Anasazi iterative solvers
Anasazi::StatusTestCombo< ScalarType, MV, OP >Status test for forming logical combinations of other status tests
Anasazi::StatusTestErrorException thrown to signal error in a status test during Anasazi::StatusTest::checkStatus()
Anasazi::StatusTestMaxIters< ScalarType, MV, OP >A status test for testing the number of iterations
Anasazi::StatusTestOutput< ScalarType, MV, OP >A special StatusTest for printing other status tests
Anasazi::StatusTestResNorm< ScalarType, MV, OP >A status test for testing the norm of the eigenvectors residuals
Anasazi::StatusTestWithOrdering< ScalarType, MV, OP >A status test for testing the norm of the eigenvectors residuals along with a set of auxiliary eigenvalues
Anasazi::SVQBOrthoManager< ScalarType, MV, OP >An implementation of the Anasazi::MatOrthoManager that performs orthogonalization using the SVQB iterative orthogonalization technique described by Stathapoulos and Wu. This orthogonalization routine, while not returning the upper triangular factors of the popular Gram-Schmidt method, has a communication cost (measured in number of communication calls) that is independent of the number of columns in the basis
Anasazi::ThyraMultiVec< ScalarType >Basic adapter class for Anasazi::MultiVec that uses Thyra::MultiVectorBase<ScalarType>
Anasazi::ThyraOp< ScalarType >Basic adapter class for Anasazi::Operator that uses Thyra_Operator
Anasazi::UndefinedMultiVecTraits< ScalarType, MV >This is the default struct used by MultiVecTraits<ScalarType, MV> class to produce a compile time error when the specialization does not exist for multivector type MV
Anasazi::UndefinedOperatorTraits< ScalarType, MV, OP >This is the default struct used by OperatorTraits<ScalarType, MV, OP> class to produce a compile time error when the specialization does not exist for operator type OP
Anasazi::Value< ScalarType >This struct is used for storing eigenvalues and Ritz values, as a pair of real values
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