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comparison Notes.md @ 1611:8ebcac8edd9d feature/boundary_conditions
Remove notes on boundary conditions. They are now obsolete.
| author | Vidar Stiernström <vidar.stiernstrom@gmail.com> |
|---|---|
| date | Sun, 09 Jun 2024 16:46:40 -0700 |
| parents | d68d02dd882f |
| children | 8141c184cc2f |
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| 1608:8315c456e3b4 | 1611:8ebcac8edd9d |
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| 1 # Notes | 1 # Notes |
| 2 | |
| 3 ## Boundary Conditions and SATs | |
| 4 | |
| 5 Types for boundary conditions: | |
| 6 | |
| 7 * abstract type `BoundaryData` | |
| 8 * abstract type `BoundaryCondition{T<:BoundaryData}` | |
| 9 * concrete types `ConstantBoundaryData <: BoundaryData` and similar | |
| 10 * concrete types `NeumannCondition{BD<:BoundaryData} <: BoundaryCondition{BD}` and similar | |
| 11 The concrete `BoundaryData` subtypes are "thin types" wrapping the boundary data, and are used to indicate how the boundary data should be used in e.g. sat routines. The concrete `BoundaryCondition{BD}` subtypes are used for assembling the tensors used to construct e.g. a SAT. | |
| 12 | |
| 13 SAT methods: | |
| 14 There are multiple options for what the SAT methods could return. | |
| 15 * (Current) a function which returns a `LazyTensorApplication`, e.g. `f = sat(grid,op,bc)`. The the resulting `LazyTensorApplication` can then be added to scheme i.e. `scheme = op*u + f(u)`. Depdending on the type of data in the BC, e.g. time-depdendent etc one can return f(u,t). | |
| 16 * `LazyTensor`s `closure, penalty = sat(grid,op,bc)` like in the matlab version. Probably the most general one. Up to the user to make use of the returned `LazyTensor`s. One can for example then easily include the closures to the operator and have eg. `D = (op + closure)*u`. | |
| 17 * A `LazyTensor` for closure, and a `LazyArray` for `penalty*data`. Mix of the above. | |
| 18 * Same as first but of the form sat = `sat_op*(L*u-g)`. This is how one typically would write the SAT in the litterature. The function `sat_tensors` would return `sat_op` and `L`. Need to get compositions working before we can implement this approach. | |
| 19 | |
| 20 | 2 |
| 21 ## Reading operators | 3 ## Reading operators |
| 22 | 4 |
| 23 Jonatan's suggestion is to add methods to `Laplace`, `SecondDerivative` and | 5 Jonatan's suggestion is to add methods to `Laplace`, `SecondDerivative` and |
| 24 similar functions that take in a filename from which to read stencils. These | 6 similar functions that take in a filename from which to read stencils. These |