335 lines
11 KiB
Org Mode
335 lines
11 KiB
Org Mode
# -*- mode: org; -*-
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#
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#+TITLE: *Release notes for foam-extend-3.0*
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#+AUTHOR: Hrvoje Jasak.
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#+DATE: 18 December 2013
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#+LINK: http://foam-extend.org
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#+OPTIONS: author:nil
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################################################################################
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Contents:
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* Overview
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* Installation
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* Compatibility
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* New features in foam-extend-3.0
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* Reporting bugs
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* How to contribute
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* List of Contributors
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################################################################################
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* Overview
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The foam-extend project is a fork of the OpenFOAM® open source library for
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Computational Fluid Dynamics (CFD). It is an open project welcoming and
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integrating contributions from all users and developers. Previously known as
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OpenFOAM®-dev and OpenFOAM®-extend, it contains bug fixes and performance
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improvements, as well as extensions and additional features provided
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by community contributors (see list below), such as dynamic mesh and
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topological change support, turbomachinery extensions including general grid
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interpolation (GGI), cyclic GGI and mixing place, block-coupled matrix
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support, finite area method, comprehensive mesh motion capability and GPU
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support. For a full list, see below.
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Version 3.0, nicknamed "Jeju", is the current version of foam-extend. The
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release now continues the tradition and spirit of the original FOAM code
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developed by prof. Jasak and Mr. Weller during their time at
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Imperial College and released as the general purpose CFD/CCM package by
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Nabla Ltd. in 2000. In this spirit, we shall revert to original numbering
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scheme (foam-2.3.2, 13 December 2004) as release number 3.0.
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Visit http://foam-extend.org for more information.
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OPENFOAM® is a registered trademark of ESI Group. OpenFOAM-extend and
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foam-extend are a community effort not endorsed by ESI Group.
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* Installation
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foam-extend-3.0 can be compiled and runs on any linux system and
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Apple Mac OS X.
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** From source
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Please refer to doc/buildInstructions/ for details. Further
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installation instruction are available on the unofficial OpenFOAM Wiki:
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http://openfoamwiki.net/index.php/Installation/Linux/foam-extend-3.0
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If you have improvements or build instructions for a new system, please
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share them with the community (see section "How to contribute", below).
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** Binary packages
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Binary packages are available for download at
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http://sourceforge.net/projects/openfoam-extend/
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for the following systems: Ubuntu 12.04, Ubuntu 13.10 and Fedora 19 .
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* Compatibility
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Upstream features from the OpenFOAM® code base are merged into foam-extend
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on regular basis. The interface format of foam-extend-3.0 is largely
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compatible to OpenFOAM-1.6-ext and OpenFOAM-1.7.x. In some cases,
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the differences are caused by bug fixes and algorithmic improvements,
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considered more important than inter-operability.
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* Main diferentiators
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A large number of features has been lost within the release cycle of OpenFOAM
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code; since version 1.3, the code base has shrunk by more than 40%. While
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we understand the lack of technical ability of supporting advanced
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CFD features, we feel that existing features and specifically large-scale
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contributions should remain active and developed further. Below is a list
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of main features of foam-extend-3.0 which are lost, deactivated or unusable
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in ESI releases:
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** Turbomachinery features, including General Grid Interface (GGI),
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partial overlap GGI, cyclic GGI, with improvements in parallel scaling.
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First full and validated release of a mixing plane stage interface
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** Dynamic mesh with topological changes
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sliding interfaces, mesh layering, attach-detach boundaries etc.
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in foam-extend-3.0 full parallel support for topological changes
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is released for the first time
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** Finite Element Method with support for polyhedral meshes
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This is mainly used in mesh deformation and over the last 15 years
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it has proven vastly superior to all other dynamic mesh methods.
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** Advanced mesh deformation technology
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including tet FEM mesh deformation, Radial Basis Function (RBF) mesh
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deformation, tetrahedral remeshing dynamic mesh support and solid body
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motion functions. All of the above include parallelisation support
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** Library of dynamic meshes with topological changes with full
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second order FVM discretisation support on moving meshes with
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topological changes
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** Internal combustion engine-specific dynamic mesh classes such as
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two-stroke engine and various forms of 4-stroke and multi-valve
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dynamic mesh classes
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** Finite Area Method providing support for FVM-like discretisation on
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a curved surface in 3-D, with examples of liquid film modelling
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** Block-coupled matrix support, allowing fully implicit multi-equation
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solution of NxN equation sets, with full parallelisation support.
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First release of a block-AMG linear equation solver
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** Fully implicit conjugate-coupled solution framework, allowing implicit
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solution fo multiple equations over multiple meshes, with parallelism
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** Proper Orthogonal Decomposition data analysis tools, with applications
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to FOAM field classes
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** Equation reader classes and tutorials
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** Multi-solver solution framework, allowing mutiple field models to be
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solved in a coupled manner
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** A major contribution is solid mechanics modelling, including linear
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and non-linear materials, contact, self-contact and friction, with
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updated Lagrangian or absolute Lagrangian formulation. Solution o
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damage models and crack propagation in complex materials via
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topological changes
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** CUDA solver release, provided in full source and as an example of
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coupling external linear equation solvers with FOAM
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** Library-level support for Immersed Boundary Method and Overset Mesh
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** Major improvements in accuracy and stability of FVM discretisation
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with options on convection and diffusion discretisation, deferred
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correction or explicit schemes
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** Algebraic multigrid solver framerowk
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** 190 tutorials with automated run scripts
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** Automatic test harness
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* New features in foam-extend-3.0
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The list of features is a result of the work of numerous contributors. The
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maintainers of foam-extend would formally like to thank them all.
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** Core library
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cudaSolvers
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dynamicMesh
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dynamicTopoFvMesh:
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dynamicTopoFvMeshCoupled
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convexSetAlgorithm
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fieldMapping
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meshOpsTemplates
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msqAdditionalSrc
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tetDecompositionMotionSolver
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tetMotionSolver
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multiTopoBodyFvMesh
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engine
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accordionValve
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accordionEngineMesh
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attachDetachFunctions
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deformingEngineMesh
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regionSide
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twoStrokeEngine
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equationReader
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finiteArea:
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faMeshMapper
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faMeshUpdate.C
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interpolation:
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mapping
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finitVolume:
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mixingPlane
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regionCouple
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adjConvectionSchemes
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backwardD2dt2Scheme
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skewCorrectedSnGrad
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singleCellFvMesh
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harmonic
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harmonicTemplates
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magLongDelta.[HC]
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multiSolver
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OpenFOAM:
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PriorityList
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IOReferencer
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postfixedSubRegistry
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symmTensor4thOrder
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VectorN
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diagTensor
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oscillatingFixedValue
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profiling
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MixingPlaneInterpolation
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splineInterpolateXY
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BlockAmg solver
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blockVectorN solver
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BlockLduInterface
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mixingPlane (also with GAMG)
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regionCouple (also with GAMG)
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BlockCoeffNorm
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postProcessing:
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foamCalcFunctions:
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scalarMult
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componentsTurbo
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domainIntegrate
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functionObjects:
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mixingPlaneCheck
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maxFieldCell
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solidModels
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tetDecompositionFiniteElement
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thermophysicalModels:
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radiation:
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viewFactor
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turbulenceModels:
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RWallFunctions
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VectorN
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** Solver applications
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conjugateHeatSimpleFoam
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equationReaderDemo
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MRFSimpleFoam
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simpleSRFFoam
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MRFInterFoam
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multiSolver
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solidMechanics:
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elasticAcpSolidFoam
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elasticIncrAcpSolidFoam
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elasticIncrSolidFoam
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elasticNonLinIncrTLSolidFoam
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elasticNonLinTLSolidFoam
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elasticNonLinULSolidFoam
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elasticOrthoAcpSolidFoam
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elasticOrthoNonLinULSolidFoam
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elasticOrthoSolidFoam
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elasticPlasticSolidFoam
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elasticPlasticNonLinTLSolidFoam
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elasticPlasticNonLinULSolidFoam
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elasticSolidFoam
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elasticThermalSolidFoam
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icoFsiElasticNonLinULSolidFoam
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viscoElasticSolidFoam
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** Utilities
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foamMeshToAbaqus
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multiSolver (postProcessing)
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solidMechanics:
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calculateCourantNumber
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forceDisp
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patchStressIntegrate
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smoothMesh
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surfaceTractions
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** ThirdParty software
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gcc compatibility up to 4.8.1
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Updated to:
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Paraview 4.1
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openmpi 1.6.5
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cmake 2.8.12
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metis 5.1.0
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parmetis 4.0.3
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scotch 6.0.0
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zoltan 3.6
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* Reporting bugs
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To report bugs, please use the MantisBT bugtracker at
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http://sourceforge.net/apps/mantisbt/openfoam-extend/my_view_page.php .
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* How to contribute
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All your contributions are highly welcome: New solvers, utilities and
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models; bug fixes; documentation. The many ways of contributing and the
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contribution process are described in detail in the file "HowToContribute".
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* List of Contributors
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(If your name is missing in the list, please contact the maintainers at
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and it will be added asap.)
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Henry Weller
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Hrvoje Jasak
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Mattijs Janssens
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Zeljko Tukovic
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Bernhard Gschaider
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Tommaso Lucchini
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Martin Beaudoin
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Sandeep Menon
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Niklas Nordin
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Eugene De Villiers
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Henrik Rusche
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Ivor Clifford
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Philiposse Rajan
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Gavin Tabor
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Jovani Favero
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Frank Bos
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David Hill
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Niklas Wikstrom
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Dubravko Matijasevic
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Darrin Stephens
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Christian Beck
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Oliver Borm
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James Criner
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Hua Shan
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David Boner
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Pierre-Olivier Dallaire
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Norman Del Puppo
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Dennis Kingsley
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Frank Albina
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Flavio Galeazzo
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Hannes Kroger
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Olivier Petit
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David Schmidt
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Andreas Feymark
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Luca Mangani
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Daniel Schmode
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Christoph Goniva
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Takuya Oshima
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Juho Peltola
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Eric Paterson
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Fabian Peng Karrholm
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Aleksandar Karac
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Maria Garcia Camprubi
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Chris Greenshields
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Mark Olesen
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Hilary Spencer
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Andy Heather
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Dominik Christ
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Peter Janas
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Niels Linnemann
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Nikola Kornev
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