trilinos 12.12.1-8ubuntu1 source package in Ubuntu
Changelog
trilinos (12.12.1-8ubuntu1) focal; urgency=medium * Remove Python dependency * Double up the limit of debug information entries -- Graham Inggs <email address hidden> Sun, 22 Dec 2019 13:09:22 +0000
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trilinos_12.12.1-8ubuntu1.debian.tar.xz | 19.5 KiB | ca41457feef6fc56fca0a7afdad525028215893787f898028422f3784d5897e5 |
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Available diffs
Binary packages built by this source
- libtrilinos-amesos-dev: direct sparse solver package - development files
Amesos is the Direct Sparse Solver Package in Trilinos. The goal of Amesos is
to make AX=B as easy as it sounds, at least for direct methods. Amesos
provides clean and consistent interfaces to a number of third-party libraries.
.
This package provides headers.
- libtrilinos-amesos12: direct sparse solver package - runtime files
Amesos is the Direct Sparse Solver Package in Trilinos. The goal of Amesos is
to make AX=B as easy as it sounds, at least for direct methods. Amesos
provides clean and consistent interfaces to a number of third-party libraries.
.
This package contains the dynamic libraries.
- libtrilinos-amesos12-dbgsym: debug symbols for libtrilinos-amesos12
- libtrilinos-amesos2-12: next generation direct sparse solver package - runtime files
Amesos2 is a package for solving sparse linear systems using direct solvers.
It differs from Amesos in that it is templated on the scalar and index types.
KLU2 is the only native solver.
.
This package contains the dynamic libraries.
- libtrilinos-amesos2-12-dbgsym: debug symbols for libtrilinos-amesos2-12
- libtrilinos-amesos2-dev: next generation direct sparse solver package - development files
Amesos2 is a package for solving sparse linear systems using direct solvers.
It differs from Amesos in that it is templated on the scalar and index types.
KLU2 is the only native solver.
.
This package provides headers.
- libtrilinos-anasazi-dev: large-scale eigenvalue algorithms - development files
Anasazi is an extensible and interoperable framework for large-scale
eigenvalue algorithms. The motivation for this framework is to provide a
generic interface to a collection of algorithms for solving large-scale
eigenvalue problems. Anasazi is interoperable because both the matrix and
vectors (defining the eigenspace) are considered to be opaque objects -- only
knowledge of the matrix and vectors via elementary operations is necessary.
.
This package provides headers.
- libtrilinos-anasazi12: large-scale eigenvalue algorithms - runtime files
Anasazi is an extensible and interoperable framework for large-scale
eigenvalue algorithms. The motivation for this framework is to provide a
generic interface to a collection of algorithms for solving large-scale
eigenvalue problems. Anasazi is interoperable because both the matrix and
vectors (defining the eigenspace) are considered to be opaque objects -- only
knowledge of the matrix and vectors via elementary operations is necessary.
.
This package contains the dynamic libraries.
- libtrilinos-anasazi12-dbgsym: debug symbols for libtrilinos-anasazi12
- libtrilinos-aztecoo-dev: object-oriented interface to the Aztec solver - development files
AztecOO provides an object-oriented interface to the well-known Aztec solver
library. Furthermore, it allows flexible construction of matrix and vector
arguments via Epetra matrix and vector classes. Finally, AztecOO provide
additional functionality not found in Aztec and any future enhancements to the
Aztec package will be available only through the AztecOO interfaces.
.
This package provides headers.
- libtrilinos-aztecoo12: object-oriented interface to the Aztec solver - runtime files
AztecOO provides an object-oriented interface to the well-known Aztec solver
library. Furthermore, it allows flexible construction of matrix and vector
arguments via Epetra matrix and vector classes. Finally, AztecOO provide
additional functionality not found in Aztec and any future enhancements to the
Aztec package will be available only through the AztecOO interfaces.
.
This package contains the dynamic libraries.
- libtrilinos-aztecoo12-dbgsym: debug symbols for libtrilinos-aztecoo12
- libtrilinos-belos-dev: iterative linear solvers - development files
Belos provides next-generation iterative linear solvers and a powerful linear
solver developer framework. This framework includes abstract interfaces to
linear algebra using traits mechanisms, abstract interfaces to
orthogonalization, abstract interfaces to iteration kernels, powerful solver
managers, and a basic linear problem class.
.
This package provides headers.
- libtrilinos-belos12: iterative linear solvers - runtime files
Belos provides next-generation iterative linear solvers and a powerful linear
solver developer framework. This framework includes abstract interfaces to
linear algebra using traits mechanisms, abstract interfaces to
orthogonalization, abstract interfaces to iteration kernels, powerful solver
managers, and a basic linear problem class.
.
This package contains the dynamic libraries.
- libtrilinos-belos12-dbgsym: debug symbols for libtrilinos-belos12
- libtrilinos-epetra-dev: basis package for linear algebra - development files
Epetra provides the fundamental construction routines and services function
that are required for serial and parallel linear algebra libraries. Epetra
provides the underlying foundation for all Trilinos solvers.
.
This package provides headers.
- libtrilinos-epetra12: basis package for linear algebra - runtime files
Epetra provides the fundamental construction routines and services function
that are required for serial and parallel linear algebra libraries. Epetra
provides the underlying foundation for all Trilinos solvers.
.
This package contains the dynamic libraries.
- libtrilinos-epetra12-dbgsym: debug symbols for libtrilinos-epetra12
- libtrilinos-epetraext-dev: extensions to the Epetra toolkit - development files
EpetraExt provides tools and functions that make it easier to work with
Epetra.
.
This package provides headers.
- libtrilinos-epetraext12: extensions to the Epetra toolkit - runtime files
EpetraExt provides tools and functions that make it easier to work with
Epetra.
.
This package contains the dynamic libraries.
- libtrilinos-epetraext12-dbgsym: debug symbols for libtrilinos-epetraext12
- libtrilinos-galeri-dev: generation of distributed linear systems - development files
The Trilinos package Galeri contains a suite of utilities and classes to
generate a variety of (distributed) linear systems. Galeri's functionalities
are very close to that of the MATLAB's gallery() function.
Several well-known finite element and finite difference matrices can be
generated using only a few simple code lines.
.
This package provides headers.
- libtrilinos-galeri12: generation of distributed linear systems - runtime files
The Trilinos package Galeri contains a suite of utilities and classes to
generate a variety of (distributed) linear systems. Galeri's functionalities
are very close to that of the MATLAB's gallery() function.
Several well-known finite element and finite difference matrices can be
generated using only a few simple code lines.
.
This package contains the dynamic libraries.
- libtrilinos-galeri12-dbgsym: debug symbols for libtrilinos-galeri12
- libtrilinos-globipack-dev: 1D globalization capabilities - development files
The GlobiPack package contains a set of interfaces and implementations for 1D
globalization capabilities to be used in nonlinear solvers, optimization
solvers, and similar algorithms that require globalization methods (e.g. line
search and trust region methods). Basic interfaces and a few implementations
are present for 1D line search methods appropritate for Newton, quasi-Newton,
and nonlinear CG algorithms.
.
This package provides headers.
- libtrilinos-globipack12: 1D globalization capabilities - runtime files
The GlobiPack package contains a set of interfaces and implementations for 1D
globalization capabilities to be used in nonlinear solvers, optimization
solvers, and similar algorithms that require globalization methods (e.g. line
search and trust region methods). Basic interfaces and a few implementations
are present for 1D line search methods appropritate for Newton, quasi-Newton,
and nonlinear CG algorithms.
.
This package contains the dynamic libraries.
- libtrilinos-globipack12-dbgsym: debug symbols for libtrilinos-globipack12
- libtrilinos-ifpack-dev: algebraic preconditioners - development files
IFPACK provides a suite of object-oriented algebraic preconditioners for the
solution of preconditioned iterative solvers. IFPACK constructors expect an
Epetra_RowMatrix object for construction. IFPACK is part of the Trilinos
Solver Project and IFPACK object interact well with other Trilinos classes. In
particular, IFPACK can be used as a preconditioner for AztecOO.
.
This package provides headers.
- libtrilinos-ifpack12: algebraic preconditioners - runtime files
IFPACK provides a suite of object-oriented algebraic preconditioners for the
solution of preconditioned iterative solvers. IFPACK constructors expect an
Epetra_RowMatrix object for construction. IFPACK is part of the Trilinos
Solver Project and IFPACK object interact well with other Trilinos classes. In
particular, IFPACK can be used as a preconditioner for AztecOO.
.
This package contains the dynamic libraries.
- libtrilinos-ifpack12-dbgsym: debug symbols for libtrilinos-ifpack12
- libtrilinos-ifpack2-12: next generation algebraic preconditioners - runtime files
Ifpack2 provides incomplete factorizations, relaxations, and domain
decomposition operators for linear algebra objects (sparse matrices,
operators, and dense vectors and multivectors) provided by the Tpetra package.
You may use these operators however you wish: for example as preconditioners
in an iterative solver, or as smoothers for algebraic multigrid.
.
This package contains the dynamic libraries.
- libtrilinos-ifpack2-12-dbgsym: debug symbols for libtrilinos-ifpack2-12
- libtrilinos-ifpack2-dev: next generation algebraic preconditioners - development files
Ifpack2 provides incomplete factorizations, relaxations, and domain
decomposition operators for linear algebra objects (sparse matrices,
operators, and dense vectors and multivectors) provided by the Tpetra package.
You may use these operators however you wish: for example as preconditioners
in an iterative solver, or as smoothers for algebraic multigrid.
.
This package provides headers.
- libtrilinos-intrepid-dev: compatible discretizations of PDEs - development files
Intrepid is a library of interoperable tools for compatible discretizations of
Partial Differential Equations (PDEs). Intrepid is intended primarily for
application developers who want to reuse large parts of their existing code
frameworks such as I/O, data structures, assembly routines, etc. while gaining
access to advanced discretization capabilities provided by Intrepid.
.
This package provides headers.
- libtrilinos-intrepid12: compatible discretizations of PDEs - runtime files
Intrepid is a library of interoperable tools for compatible discretizations of
Partial Differential Equations (PDEs). Intrepid is intended primarily for
application developers who want to reuse large parts of their existing code
frameworks such as I/O, data structures, assembly routines, etc. while gaining
access to advanced discretization capabilities provided by Intrepid.
.
This package contains the dynamic libraries.
- libtrilinos-intrepid12-dbgsym: debug symbols for libtrilinos-intrepid12
- libtrilinos-isorropia-dev: partitioning, load balancing, coloring of sparse matrices - development files
Isorropia is a package for combinatorial scientific computing, with focus on
partitioning and load balancing, but also supports coloring and ordering of
sparse matrices. Its main purpose is to assist with redistributing objects
such as matrices and graphs in a parallel execution setting, to allow for more
efficient computations. Isorropia partitions matrices by rows, and produces
good maps for Epetra matrices (graphs).
.
This package provides headers.
- libtrilinos-isorropia12: partitioning, load balancing, coloring of sparse matrices - runtime files
Isorropia is a package for combinatorial scientific computing, with focus on
partitioning and load balancing, but also supports coloring and ordering of
sparse matrices. Its main purpose is to assist with redistributing objects
such as matrices and graphs in a parallel execution setting, to allow for more
efficient computations. Isorropia partitions matrices by rows, and produces
good maps for Epetra matrices (graphs).
.
This package contains the dynamic libraries.
- libtrilinos-isorropia12-dbgsym: debug symbols for libtrilinos-isorropia12
- libtrilinos-kokkos-dev: Trilinos Kokkos programming model - development files
Kokkos implements a programming model in C++ for writing performance portable
applications targeting all major HPC platforms. For that purpose it provides
abstractions for both parallel execution of code and data management.
Kokkos is designed to target complex node architectures with N-level memory
hierarchies and multiple types of execution resources. It currently can use
OpenMP, Pthreads and CUDA as backend programming models.
.
This package provides headers.
- libtrilinos-kokkos-kernels-dev: Kokkos local computational kernels - development files
KokkosKernels implements local computational kernels for linear algebra and
graph operations, using the Kokkos shared-memory parallel programming model.
"Local" means not using MPI, or running within a single MPI process without
knowing about MPI. "Computational kernels" are coarse-grained operations;
they take a lot of work and make sense to parallelize inside using Kokkos.
KokkosKernels can be the building block of a parallel linear algebra library
like Tpetra that uses MPI and threads for parallelism, or it can be used
stand-alone in your application.
.
This package provides headers.
- libtrilinos-kokkos-kernels12: Kokkos local computational kernels - runtime files
KokkosKernels implements local computational kernels for linear algebra and
graph operations, using the Kokkos shared-memory parallel programming model.
"Local" means not using MPI, or running within a single MPI process without
knowing about MPI. "Computational kernels" are coarse-grained operations;
they take a lot of work and make sense to parallelize inside using Kokkos.
KokkosKernels can be the building block of a parallel linear algebra library
like Tpetra that uses MPI and threads for parallelism, or it can be used
stand-alone in your application.
.
This package contains the dynamic libraries.
- libtrilinos-kokkos-kernels12-dbgsym: debug symbols for libtrilinos-kokkos-kernels12
- libtrilinos-kokkos12: Trilinos Kokkos programming model - runtime files
Kokkos implements a programming model in C++ for writing performance portable
applications targeting all major HPC platforms. For that purpose it provides
abstractions for both parallel execution of code and data management.
Kokkos is designed to target complex node architectures with N-level memory
hierarchies and multiple types of execution resources. It currently can use
OpenMP, Pthreads and CUDA as backend programming models.
.
This package contains the dynamic libraries.
- libtrilinos-kokkos12-dbgsym: debug symbols for libtrilinos-kokkos12
- libtrilinos-komplex-dev: complex linear solver package - development files
Komplex is a complex linear solver package. Solves complex-valued linear
systems via equivalent real formulations.
.
This package provides headers.
- libtrilinos-komplex12: complex linear solver package - runtime files
Komplex is a complex linear solver package. Solves complex-valued linear
systems via equivalent real formulations.
.
This package contains the dynamic libraries.
- libtrilinos-komplex12-dbgsym: debug symbols for libtrilinos-komplex12
- libtrilinos-ml-dev: multigrid preconditioning - development files
ML is Sandia's main multigrid preconditioning package. ML is designed to solve
large sparse linear systems of equations arising primarily from elliptic PDE
discretizations. ML is used to define and build multigrid solvers and
preconditioners, and it contains black-box classes to construct
highly-scalable smoothed aggregation preconditioners. ML preconditioners have
been used on thousands of processors for a variety of problems, including the
incompressible Navier-Stokes equations with heat and mass transfer, linear and
nonlinear elasticity equations, the Maxwell equations, semiconductor
equations, and more.
.
This package provides headers.
- libtrilinos-ml12: multigrid preconditioning - runtime files
ML is Sandia's main multigrid preconditioning package. ML is designed to solve
large sparse linear systems of equations arising primarily from elliptic PDE
discretizations. ML is used to define and build multigrid solvers and
preconditioners, and it contains black-box classes to construct
highly-scalable smoothed aggregation preconditioners. ML preconditioners have
been used on thousands of processors for a variety of problems, including the
incompressible Navier-Stokes equations with heat and mass transfer, linear and
nonlinear elasticity equations, the Maxwell equations, semiconductor
equations, and more.
.
This package contains the dynamic libraries.
- libtrilinos-ml12-dbgsym: debug symbols for libtrilinos-ml12
- libtrilinos-moertel-dev: mortar methods package - development files
This package supplies capabilities for nonconforming mesh tying and contact
formulations in 2 and 3 dimensions using Mortar methods. Mortar methods are a
type of Lagrange Multiplier constraint that can be used in contact
formulations and in non-conforming or conforming mesh tying as well as in
domain decomposition techniques. Originally introduced as a domain
decomposition method for spectral elements, Mortar methods are used in a large
class of nonconforming situations such as the surface coupling of different
physical models, discretization schemes or non-matching triangulations along
interior interfaces of a domain.
.
This package provides headers.
- libtrilinos-moertel12: mortar methods package - runtime files
This package supplies capabilities for nonconforming mesh tying and contact
formulations in 2 and 3 dimensions using Mortar methods. Mortar methods are a
type of Lagrange Multiplier constraint that can be used in contact
formulations and in non-conforming or conforming mesh tying as well as in
domain decomposition techniques. Originally introduced as a domain
decomposition method for spectral elements, Mortar methods are used in a large
class of nonconforming situations such as the surface coupling of different
physical models, discretization schemes or non-matching triangulations along
interior interfaces of a domain.
.
This package contains the dynamic libraries.
- libtrilinos-moertel12-dbgsym: debug symbols for libtrilinos-moertel12
- libtrilinos-muelu-dev: next generation multilevel preconditioner capabilities - development files
MueLu is designed to solve large sparse linear systems of equations arising
from PDE discretizations. MueLu provides easy-to-use multigrid solvers and
preconditioners based on smoothed aggregation algorithms. As a multigrid
framework, MueLu supports the design of highly application specific multigrid
preconditioners.
.
This package provides headers.
- libtrilinos-muelu12: next generation multilevel preconditioner capabilities - runtime files
MueLu is designed to solve large sparse linear systems of equations arising
from PDE discretizations. MueLu provides easy-to-use multigrid solvers and
preconditioners based on smoothed aggregation algorithms. As a multigrid
framework, MueLu supports the design of highly application specific multigrid
preconditioners.
.
This package contains the dynamic libraries.
- libtrilinos-muelu12-dbgsym: debug symbols for libtrilinos-muelu12
- libtrilinos-nox-dev: robust solution of nonlinear equations - development files
NOX robustly solves and analyzes large-scale systems of nonlinear equations.
NOX is short for Nonlinear Object-Oriented Solutions, and its objective is to
enable the robust and efficient solution of the equation: F(x)=0 using
globalized Newton methods such as line search and trust region methods. NOX is
designed to work with any linear algebra package and to be easily customized.
.
This package provides headers.
- libtrilinos-nox12: robust solution of nonlinear equations - runtime files
NOX robustly solves and analyzes large-scale systems of nonlinear equations.
NOX is short for Nonlinear Object-Oriented Solutions, and its objective is to
enable the robust and efficient solution of the equation: F(x)=0 using
globalized Newton methods such as line search and trust region methods. NOX is
designed to work with any linear algebra package and to be easily customized.
.
This package contains the dynamic libraries.
- libtrilinos-nox12-dbgsym: debug symbols for libtrilinos-nox12
- libtrilinos-optipack-dev: Trilinos optimization algorithms - development files
The OptiPack package contains interfaces and concrete implementations of some
basic optimization algorithms based on Thyra. The globalization methods used
are implemented in GlobiPack.
.
This package provides headers.
- libtrilinos-optipack12: Trilinos optimization algorithms - runtime files
The OptiPack package contains interfaces and concrete implementations of some
basic optimization algorithms based on Thyra. The globalization methods used
are implemented in GlobiPack.
.
This package contains the dynamic libraries.
- libtrilinos-optipack12-dbgsym: debug symbols for libtrilinos-optipack12
- libtrilinos-pamgen-dev: hexahedral and quadrilateral mesh generator - development files
PAMGEN creates hexahedral or quadrilateral (in 2D) finite element meshes of
simple shapes (cubes and cylinders) in parallel. When linked to an application
as a library, it allows each process of a parallel simulation to generate its
finite element domain representation at execution time.
.
This package provides headers.
- libtrilinos-pamgen12: hexahedral and quadrilateral mesh generator - runtime files
PAMGEN creates hexahedral or quadrilateral (in 2D) finite element meshes of
simple shapes (cubes and cylinders) in parallel. When linked to an application
as a library, it allows each process of a parallel simulation to generate its
finite element domain representation at execution time.
.
This package contains the dynamic libraries.
- libtrilinos-pamgen12-dbgsym: debug symbols for libtrilinos-pamgen12
- libtrilinos-phalanx-dev: local field evaluation kernel - development files
Phalanx is a local field evaluation kernel specifically designed for general
partial differential equation solvers. The main goal of Phalanx is to
decompose a complex problem into a number of simpler problems with managed
dependencies to support rapid development and extensibility of the PDE code.
Through the use of template metaprogramming concepts, Phalanx supports
arbitrary user defined data types and evaluation types. This allows for
unprecedented flexibility for direct integration with user applications and
provides extensive support for embedded technology such as automatic
differentiation for sensitivity analysis and uncertainty quantification.
.
This package provides headers.
- libtrilinos-phalanx12: local field evaluation kernel - runtime files
Phalanx is a local field evaluation kernel specifically designed for general
partial differential equation solvers. The main goal of Phalanx is to
decompose a complex problem into a number of simpler problems with managed
dependencies to support rapid development and extensibility of the PDE code.
Through the use of template metaprogramming concepts, Phalanx supports
arbitrary user defined data types and evaluation types. This allows for
unprecedented flexibility for direct integration with user applications and
provides extensive support for embedded technology such as automatic
differentiation for sensitivity analysis and uncertainty quantification.
.
This package contains the dynamic libraries.
- libtrilinos-phalanx12-dbgsym: debug symbols for libtrilinos-phalanx12
- libtrilinos-pike-dev: physics integration kernels - development files
Pike is a software library for coupling and solving multiphysics applications.
It provides basic interfaces and utilities for performing code-to-code
coupling. It provides simple black-box Picard iteration methods for solving the
coupled system of equations including Jacobi and Gauss-Seidel solvers. The
Pike library contains no physics and just provides interfaces and utilities for
coupling codes.
.
This package provides headers.
- libtrilinos-pike12: physics integration kernels - runtime files
Pike is a software library for coupling and solving multiphysics applications.
It provides basic interfaces and utilities for performing code-to-code
coupling. It provides simple black-box Picard iteration methods for solving the
coupled system of equations including Jacobi and Gauss-Seidel solvers. The
Pike library contains no physics and just provides interfaces and utilities for
coupling codes.
.
This package contains the dynamic libraries.
- libtrilinos-pike12-dbgsym: debug symbols for libtrilinos-pike12
- libtrilinos-piro-dev: embedded nonlinear analysis package - development files
Piro is the top-level, unifying package of the Embedded Nonlinear Analysis
Capability area. The main purpose of the package is to provide driver classes
for the common uses of Trilinos nonlinear analysis tools. These drivers all
can be constructed similarly, with a ModelEvaluator and a ParameterList, to
make it simple to switch between different types of analysis. They also all
inherit from the same base classes (reponse-only model evaluators) so that the
resulting analysis can in turn driven by non-intrusive analysis routines.
.
This package provides headers.
- libtrilinos-piro12: embedded nonlinear analysis package - runtime files
Piro is the top-level, unifying package of the Embedded Nonlinear Analysis
Capability area. The main purpose of the package is to provide driver classes
for the common uses of Trilinos nonlinear analysis tools. These drivers all
can be constructed similarly, with a ModelEvaluator and a ParameterList, to
make it simple to switch between different types of analysis. They also all
inherit from the same base classes (reponse-only model evaluators) so that the
resulting analysis can in turn driven by non-intrusive analysis routines.
.
This package contains the dynamic libraries.
- libtrilinos-piro12-dbgsym: debug symbols for libtrilinos-piro12
- libtrilinos-pliris-dev: Trilinos dense solvers package - development files
Pliris is an object-oriented interface to a LU solver for dense matrices on
parallel platforms. These matrices are double precision real matrices
distributed on a parallel machine.
.
This package provides headers.
- libtrilinos-pliris12: Trilinos dense solvers package - runtime files
Pliris is an object-oriented interface to a LU solver for dense matrices on
parallel platforms. These matrices are double precision real matrices
distributed on a parallel machine.
.
This package contains the dynamic libraries.
- libtrilinos-pliris12-dbgsym: debug symbols for libtrilinos-pliris12
- libtrilinos-rol-dev: rapid optimization library - development files
The Rapid Optimization Library (ROL) is a package for large-scale optimization.
It is used for the solution of optimal design, optimal control and inverse
problems in large-scale engineering applications. Other uses include mesh
optimization and image processing.
.
This package provides headers.
- libtrilinos-rol12: rapid optimization library - runtime files
The Rapid Optimization Library (ROL) is a package for large-scale optimization.
It is used for the solution of optimal design, optimal control and inverse
problems in large-scale engineering applications. Other uses include mesh
optimization and image processing.
.
This package contains the dynamic libraries.
- libtrilinos-rol12-dbgsym: debug symbols for libtrilinos-rol12
- libtrilinos-rtop-dev: reductions/transformation operators - development files
RTOp (reduction/
transformation operators) provides the basic mechanism for
implementing vector operations in a flexible and efficient manner.
.
This package provides headers.
- libtrilinos-rtop12: reductions/transformation operators - runtime files
RTOp (reduction/
transformation operators) provides the basic mechanism for
implementing vector operations in a flexible and efficient manner.
.
This package contains the dynamic libraries.
- libtrilinos-rtop12-dbgsym: debug symbols for libtrilinos-rtop12
- libtrilinos-rythmos-dev: Trilinos transient integrator - development files
Rythmos is a transient integrator for ordinary differential equations and
differential-algebraic equations with support for explicit, implicit, one-step
and multi-step algorithms. The fundamental design of Rythmos is aimed at
supporting operator-split algorithms, multi-physics applications, block linear
algebra, and adjoint integration.
.
This package provides headers.
- libtrilinos-rythmos12: Trilinos transient integrator - runtime files
Rythmos is a transient integrator for ordinary differential equations and
differential-algebraic equations with support for explicit, implicit, one-step
and multi-step algorithms. The fundamental design of Rythmos is aimed at
supporting operator-split algorithms, multi-physics applications, block linear
algebra, and adjoint integration.
.
This package contains the dynamic libraries.
- libtrilinos-rythmos12-dbgsym: debug symbols for libtrilinos-rythmos12
- libtrilinos-sacado-dev: automatic differentiation for C++ applications - development files
Sacado is a set of automatic differentiation tools for C++ applications. It
provides templated classes for forward, reverse and Taylor mode automatic
differentiation.
.
This package provides headers.
- libtrilinos-sacado12: automatic differentiation for C++ applications - runtime files
Sacado is a set of automatic differentiation tools for C++ applications. It
provides templated classes for forward, reverse and Taylor mode automatic
differentiation.
.
This package contains the dynamic libraries.
- libtrilinos-sacado12-dbgsym: debug symbols for libtrilinos-sacado12
- libtrilinos-shards-dev: interoperability tools for PDE solving - development files
The purpose of Shards is to provide a suite of common tools for numerical and
topological data that facilitate interoperability between typical software
modules used to solve Partial Differential Equations (PDEs) by finite element,
finite volume and finite difference methods. Shards comprises of two
categories of tools: methods to manage and access information about cell
topologies used in mesh-based methods for PDEs, and methods to work with
multi-dimensional arrays used to store numerical data in corresponding
computer codes.
.
This package provides headers.
- libtrilinos-shards12: interoperability tools for PDE solving - runtime files
The purpose of Shards is to provide a suite of common tools for numerical and
topological data that facilitate interoperability between typical software
modules used to solve Partial Differential Equations (PDEs) by finite element,
finite volume and finite difference methods. Shards comprises of two
categories of tools: methods to manage and access information about cell
topologies used in mesh-based methods for PDEs, and methods to work with
multi-dimensional arrays used to store numerical data in corresponding
computer codes.
.
This package contains the dynamic libraries.
- libtrilinos-shards12-dbgsym: debug symbols for libtrilinos-shards12
- libtrilinos-shylu-dev: solving sparse linear systems - development files
ShyLU is a package for solving sparse linear systems. It can be used either as
a preconditioner, or as a solver. Currently, it is recommended as an Ifpack
preconditioner. ShyLU uses a hybrid direct/iterative approach based on Schur
complements. The goal is to provide robustness similar to sparse direct
solvers, but memory usage more similar to preconditioned iterative solvers.
ShyLU was designed as a node-level solver. It can use both MPI and threads in
several ways. ShyLU was designed (a) to solve difficult but medium-size
problems, and (b) to be used as a subdomain solver or smoother for very large
problems within an iterative scheme. It is a purely algebraic method so can be
used as a black-box solver. ShyLU has been particularly successful in
electrical circuit simulation (Xyce).
.
This package provides headers.
- libtrilinos-shylu12: solving sparse linear systems - runtime files
ShyLU is a package for solving sparse linear systems. It can be used either as
a preconditioner, or as a solver. Currently, it is recommended as an Ifpack
preconditioner. ShyLU uses a hybrid direct/iterative approach based on Schur
complements. The goal is to provide robustness similar to sparse direct
solvers, but memory usage more similar to preconditioned iterative solvers.
ShyLU was designed as a node-level solver. It can use both MPI and threads in
several ways. ShyLU was designed (a) to solve difficult but medium-size
problems, and (b) to be used as a subdomain solver or smoother for very large
problems within an iterative scheme. It is a purely algebraic method so can be
used as a black-box solver. ShyLU has been particularly successful in
electrical circuit simulation (Xyce).
.
This package contains the dynamic libraries.
- libtrilinos-shylu12-dbgsym: debug symbols for libtrilinos-shylu12
- libtrilinos-stokhos-dev: Trilinos uncertainty quantification package - development files
Stokhos is a package for intrusive stochastic Galerkin uncertainty
quantification methods. It provides methods for computing well-known intrusive
stochastic Galerkin projections such as Polynomial Chaos and Generalized
Polynomial Chaos, interfaces for forming the resulting nonlinear systems, and
linear solver methods for solving block stochastic Galerkin linear systems.
.
This package provides headers.
- libtrilinos-stokhos12: Trilinos uncertainty quantification package - runtime files
Stokhos is a package for intrusive stochastic Galerkin uncertainty
quantification methods. It provides methods for computing well-known intrusive
stochastic Galerkin projections such as Polynomial Chaos and Generalized
Polynomial Chaos, interfaces for forming the resulting nonlinear systems, and
linear solver methods for solving block stochastic Galerkin linear systems.
.
This package contains the dynamic libraries.
- libtrilinos-stokhos12-dbgsym: debug symbols for libtrilinos-stokhos12
- libtrilinos-stratimikos-dev: wrappers for linear solvers and preconditioners - development files
The package Stratimikos contains a unified set of Thyra-based wrappers to
linear solver and preconditioner capabilities in Trilinos. The Stratimikos
package is also a place where unified testing of linear solvers and
preconditioners can be performed.
.
This package provides headers.
- libtrilinos-stratimikos12: wrappers for linear solvers and preconditioners - runtime files
The package Stratimikos contains a unified set of Thyra-based wrappers to
linear solver and preconditioner capabilities in Trilinos. The Stratimikos
package is also a place where unified testing of linear solvers and
preconditioners can be performed.
.
This package contains the dynamic libraries.
- libtrilinos-stratimikos12-dbgsym: debug symbols for libtrilinos-stratimikos12
- libtrilinos-teko-dev: block preconditioners - development files
Teko is a package for development and implementation of block preconditioners.
This includes support for manipulation and setup of block operators.
Furthermore tools exist to support decomposition of a fully coupled operator.
Additionally, facilities that allow the construction of approximate inverse
operators using the full complement of available preconditioners and solvers
are available in Teko. Finally, a small number of generic block
preconditioners has been implemented in Teko, including block Jacobi, and
block Gauss-Seidel. For the Navier-Stokes equation, Teko has implementations
of SIMPLE, PCD and LSC. For details on these methods see Stabilization and
Scalable Block Preconditioning for the Navier-Stokes Equations and the
references therein.
.
This package provides headers.
- libtrilinos-teko12: block preconditioners - runtime files
Teko is a package for development and implementation of block preconditioners.
This includes support for manipulation and setup of block operators.
Furthermore tools exist to support decomposition of a fully coupled operator.
Additionally, facilities that allow the construction of approximate inverse
operators using the full complement of available preconditioners and solvers
are available in Teko. Finally, a small number of generic block
preconditioners has been implemented in Teko, including block Jacobi, and
block Gauss-Seidel. For the Navier-Stokes equation, Teko has implementations
of SIMPLE, PCD and LSC. For details on these methods see Stabilization and
Scalable Block Preconditioning for the Navier-Stokes Equations and the
references therein.
.
This package contains the dynamic libraries.
- libtrilinos-teko12-dbgsym: debug symbols for libtrilinos-teko12
- libtrilinos-teuchos-dev: common tools for Trilinos - development files
Teuchos provides a suite of common tools for Trilinos for developers to use.
These tools include BLAS/LAPACK wrappers, smart pointers, parameter lists, XML
parsers, etc.
.
This package provides headers.
- libtrilinos-teuchos12: common tools for Trilinos - runtime files
Teuchos provides a suite of common tools for Trilinos for developers to use.
These tools include BLAS/LAPACK wrappers, smart pointers, parameter lists, XML
parsers, etc.
.
This package contains the dynamic libraries.
- libtrilinos-teuchos12-dbgsym: debug symbols for libtrilinos-teuchos12
- libtrilinos-thyra-dev: interoperability layer for numerical software - development files
The Thyra package contains a set of interfaces and supporting code that
defines basic interoperability mechanisms between different types of numerical
software. The foundation of all of these interfaces are the mathematical
concepts of vectors, vector spaces, and linear operators. All other interfaces
and support software is built on the basic operator/vector interfaces.
.
This package provides headers.
- libtrilinos-thyra12: interoperability layer for numerical software - runtime files
The Thyra package contains a set of interfaces and supporting code that
defines basic interoperability mechanisms between different types of numerical
software. The foundation of all of these interfaces are the mathematical
concepts of vectors, vector spaces, and linear operators. All other interfaces
and support software is built on the basic operator/vector interfaces.
.
This package contains the dynamic libraries.
- libtrilinos-thyra12-dbgsym: debug symbols for libtrilinos-thyra12
- libtrilinos-tpetra-dev: templated numerical linear algebra package - development files
Next-generation, templated version of Petra, taking advantage of the newer
advanced features of C++.
.
This package provides headers.
- libtrilinos-tpetra12: templated numerical linear algebra package - runtime files
Next-generation, templated version of Petra, taking advantage of the newer
advanced features of C++.
.
This package contains the dynamic libraries.
- libtrilinos-tpetra12-dbgsym: debug symbols for libtrilinos-tpetra12
- libtrilinos-trilinoscouplings-dev: combining Trilinos packages - development files
TrilinosCouplings provides a location for multiple Trilinos packages to be
combined for testing integrated package capabilities.
.
This package provides headers.
- libtrilinos-trilinoscouplings12: combining Trilinos packages - runtime files
TrilinosCouplings provides a location for multiple Trilinos packages to be
combined for testing integrated package capabilities.
.
This package contains the dynamic libraries.
- libtrilinos-trilinoscouplings12-dbgsym: debug symbols for libtrilinos-trilinoscouplings12
- libtrilinos-trilinosss-dev: suitesparse with adaptations for Amesos - development files
A suite of sparse matrix algorithms with adaptations for Amesos.
.
This package provides headers.
- libtrilinos-trilinosss12: suitesparse with adaptations for Amesos - runtime files
A suite of sparse matrix algorithms with adaptations for Amesos.
.
This package contains the dynamic libraries.
- libtrilinos-trilinosss12-dbgsym: debug symbols for libtrilinos-trilinosss12
- libtrilinos-triutils-dev: utilities for Trilinos - development files
TriUtils a package of utilities for other Trilinos packages.
.
This package provides headers.
- libtrilinos-triutils12: utilities for Trilinos - runtime files
TriUtils a package of utilities for other Trilinos packages.
.
This package contains the dynamic libraries.
- libtrilinos-triutils12-dbgsym: debug symbols for libtrilinos-triutils12
- libtrilinos-xpetra-dev: conversion between Epetra and Teuchos objects - development files
Xpetra a lightweight wrapper to both Epetra and Tpetra. The Xpetra syntax
mirrors that of Tpetra. Xpetra enables algorithm developers to write to a
single interface but be able to use either Epetra or Tpetra. Xpetra can also be
introduced into existing code to allow for gradual migration.
.
This package provides headers.
- libtrilinos-xpetra12: conversion between Epetra and Teuchos objects - runtime files
Xpetra a lightweight wrapper to both Epetra and Tpetra. The Xpetra syntax
mirrors that of Tpetra. Xpetra enables algorithm developers to write to a
single interface but be able to use either Epetra or Tpetra. Xpetra can also be
introduced into existing code to allow for gradual migration.
.
This package contains the dynamic libraries.
- libtrilinos-xpetra12-dbgsym: debug symbols for libtrilinos-xpetra12
- libtrilinos-zoltan-dev: parallel dynamic load balancing - development files
Zoltan is a toolkit of parallel services for dynamic, unstructured, and/or
adaptive simulations. Zoltan provides parallel dynamic load balancing and
related services for a wide variety of applications, including finite element
methods, matrix operations, particle methods, and crash simulations. Zoltan
also provides parallel graph coloring, matrix ordering, unstructured
communication tools, and distributed data directories.
.
This package provides headers.
- libtrilinos-zoltan12: parallel dynamic load balancing - runtime files
Zoltan is a toolkit of parallel services for dynamic, unstructured, and/or
adaptive simulations. Zoltan provides parallel dynamic load balancing and
related services for a wide variety of applications, including finite element
methods, matrix operations, particle methods, and crash simulations. Zoltan
also provides parallel graph coloring, matrix ordering, unstructured
communication tools, and distributed data directories.
.
This package contains the dynamic libraries.
- libtrilinos-zoltan12-dbgsym: debug symbols for libtrilinos-zoltan12
- libtrilinos-zoltan2-12: Trilinos next generation load balancing package - runtime files
Zoltan2 is a package for load balancing and combinatorial scientific
computing. It may be viewed as a successor to the popular Zoltan and Isorropia
packages.
.
This package contains the dynamic libraries.
- libtrilinos-zoltan2-12-dbgsym: debug symbols for libtrilinos-zoltan2-12
- libtrilinos-zoltan2-dev: Trilinos next generation load balancing package - development files
Zoltan2 is a package for load balancing and combinatorial scientific
computing. It may be viewed as a successor to the popular Zoltan and Isorropia
packages.
.
This package provides headers.
- trilinos-all-dev: object-oriented framework for large-scale problems - development files (ALL)
The Trilinos Project is an effort to develop algorithms and enabling
technologies within an object-oriented software framework for the
solution of large-scale, complex multi-physics engineering and
scientific problems. A unique design feature of Trilinos is its
focus on packages.
.
This package depends on all Trilinos development packages.
- trilinos-dev: object-oriented framework for large-scale problems - development files
The Trilinos Project is an effort to develop algorithms and enabling
technologies within an object-oriented software framework for the
solution of large-scale, complex multi-physics engineering and
scientific problems. A unique design feature of Trilinos is its
focus on packages.
.
This package contains the development header and some makefile templates.
- trilinos-doc: object-oriented framework for large-scale problems - documentation
The Trilinos Project is an effort to develop algorithms and enabling
technologies within an object-oriented software framework for the
solution of large-scale, complex multi-physics engineering and
scientific problems. A unique design feature of Trilinos is its
focus on packages.
.
This is documentation for the Trilinos libraries in HTML format.
Some pages point to header files provided in the corresponding -dev package,
so it is suggested to install the latter as well.