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If something needs updating or you have suggestions, please communicate them ([[Main_Page#Author]]) and/or request an openpipeflow login (top right corner). This website uses Mediawiki and is easy to edit. | |||
* [[ | |||
'''Overview of the solver''' | |||
* [[File:TheOpenpipeflowSolver.pdf]] - An overview of the code, its context, and how to cite Openpipeflow. | |||
'''Equations, properties, methods, etc.''': | |||
* [[Equations and parameters]] - Non-dimensionalisation, Navier-Stokes, Reynolds numbers. | * [[Equations and parameters]] - Non-dimensionalisation, Navier-Stokes, Reynolds numbers. | ||
* [[The PPE formulation]] - Pressure-Poisson Equation, and the influence matrix technique. | |||
* [[Table of unit conversions]] - scale factors between code and 'lab' units. | |||
* [[Differential operators in cylindrical coordinates]] - grad, div, curl, Laplacian, etc. | * [[Differential operators in cylindrical coordinates]] - grad, div, curl, Laplacian, etc. | ||
* [[Symmetries of pipe flow]] - discrete and continuous symmetries. | * [[Symmetries of pipe flow]] - discrete and continuous symmetries. | ||
* [[Method of slices]] - symmetry reduction, elimination of physically irrelevant spatial shifts. | * [[Method of slices]] - symmetry reduction, elimination of physically irrelevant spatial shifts. | ||
* [ | * [[Newton-Krylov_method]] - generic code. See [[Utilities]] for the pipe implementation. | ||
'''Using the simulation code''': | |||
* [[Getting started]] - INSTALLATION, overview of files, setting up a job, starting and ending a job. | |||
* [[Tutorial]] - setup a job, basic monitoring and visualisation of outputs. | |||
* [[Core implementation]] - Discretisation, Predictor-Corrector, Code Structure, Parallelisation. | |||
* [[Parallel i/o]] - a brief note on parallel data access. | |||
* [[Utilities]] - pre/post-processing, runtime processing and manipulations, Newton solver for pipe flow. | |||
'''Non-problem specific codes''' | |||
* These are designed for integration with any pre-existing code. | |||
* [[File:arnoldi.f|arnoldi.f]] - Krylov-subspace method for calculating eigenvalues of a matrix. | |||
* [[File:GMRESm.f90|GMRESm.f90]] - Krylov-subspace method for solving the linear system Ax=b for x. | |||
* [[Newton-Krylov_method]] - Newton-Krylov-Hookstep method for finding nonlinear solutions x of F(x)=0. | |||
Latest revision as of 04:37, 27 November 2019
If something needs updating or you have suggestions, please communicate them (Main_Page#Author) and/or request an openpipeflow login (top right corner). This website uses Mediawiki and is easy to edit.
Overview of the solver
- File:TheOpenpipeflowSolver.pdf - An overview of the code, its context, and how to cite Openpipeflow.
Equations, properties, methods, etc.:
- Equations and parameters - Non-dimensionalisation, Navier-Stokes, Reynolds numbers.
- The PPE formulation - Pressure-Poisson Equation, and the influence matrix technique.
- Table of unit conversions - scale factors between code and 'lab' units.
- Differential operators in cylindrical coordinates - grad, div, curl, Laplacian, etc.
- Symmetries of pipe flow - discrete and continuous symmetries.
- Method of slices - symmetry reduction, elimination of physically irrelevant spatial shifts.
- Newton-Krylov_method - generic code. See Utilities for the pipe implementation.
Using the simulation code:
- Getting started - INSTALLATION, overview of files, setting up a job, starting and ending a job.
- Tutorial - setup a job, basic monitoring and visualisation of outputs.
- Core implementation - Discretisation, Predictor-Corrector, Code Structure, Parallelisation.
- Parallel i/o - a brief note on parallel data access.
- Utilities - pre/post-processing, runtime processing and manipulations, Newton solver for pipe flow.
Non-problem specific codes
- These are designed for integration with any pre-existing code.
- File:Arnoldi.f - Krylov-subspace method for calculating eigenvalues of a matrix.
- File:GMRESm.f90 - Krylov-subspace method for solving the linear system Ax=b for x.
- Newton-Krylov_method - Newton-Krylov-Hookstep method for finding nonlinear solutions x of F(x)=0.