doc:user:remeshing:remeshing

# Differences

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doc:user:remeshing:remeshing [2016/06/13 16:35] – [Using other remeshing criteria] joris | doc:user:remeshing:remeshing [2016/06/14 18:15] – [Options] joris | ||
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Which is why all of this has been kindly automatized, | Which is why all of this has been kindly automatized, | ||

- | ===== How does FENRIR work ? ===== | + | ===== How does remeshing work ? ===== |

First, you need to have an operational 2D test case, and the will to introduce remeshing into it. | First, you need to have an operational 2D test case, and the will to introduce remeshing into it. | ||

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| | ||

autoRemesh.setBalancing(True) | autoRemesh.setBalancing(True) | ||

- | | + | |

+ | autoRemesh.makeAnim = False | ||

+ | | ||

autoRemesh.execute() | autoRemesh.execute() | ||

| | ||

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* '' | * '' | ||

| | ||

- | * Finally, the line '' | + | * The line ''. |

+ | | ||

+ | * Finally, the line ''. | ||

Now that you have altered your test case to include remeshing, and that you have defined this little script, all that remains is to launch Metafor and execute your script (execute, not load/meta). Everything should work out perfectly. | Now that you have altered your test case to include remeshing, and that you have defined this little script, all that remains is to launch Metafor and execute your script (execute, not load/meta). Everything should work out perfectly. | ||

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==== Changing the critical remeshing value during the computation ==== | ==== Changing the critical remeshing value during the computation ==== | ||

- | It may be possible that we want to change the critical value after a few remeshing. If you recall, this value is defined in the [[# | + | It may be possible that we want to change the critical value after a few remeshing (see for example ''. If you recall, this value is defined in the [[# |

However, since the same two files are used to generate all the remeshing, it is not possible to know how far in the computation we are. But to change the critical value, we need to know whether the current integration is the first or the tenth. | However, since the same two files are used to generate all the remeshing, it is not possible to know how far in the computation we are. But to change the critical value, we need to know whether the current integration is the first or the tenth. | ||

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==== Changing mesh density during the computation ==== | ==== Changing mesh density during the computation ==== | ||

- | Actually, the key '' | + | Actually, the key ''(see for example ''. For example, if we want to double the mesh density after two remeshing, we simply add in the '' |

if p[' | if p[' | ||

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Two different remeshing criteria have been implemented yet, one based on a '' | Two different remeshing criteria have been implemented yet, one based on a '' | ||

- | Previously, the one relying on a valueExtractor was used in a very simple way : on one side of the part, with the field '' | + | Previously, the one relying on a ''valueExtractor'' was used in a very simple way : on one side of the part, with the field '' |

#Stop Criterion | #Stop Criterion | ||

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But then, there is also a simple criterion based on time, if you want to remesh every few seconds or so. | But then, there is also a simple criterion based on time, if you want to remesh every few seconds or so. | ||

- | In this case, you must first define a vector containing all the times at which you want to remesh ('' | + | In this case, you must first define a vector containing all the times at which you want to remesh ('', or see ''for the example : |

def getParameters(_p={}): | def getParameters(_p={}): | ||

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CopyRemesher(side, | CopyRemesher(side, | ||

- | Therefore, if you have a complex domain, just divide it into the appropriate sides and copy/remesh as you see fit. | + | Therefore, if you have a complex domain, just divide it into the appropriate sides and copy/remesh as you see fit. However, when you want to remesh one side, copy another side, and that the two sides have a common edge, then you must first use CopyRemesher,regenerated ! |

- | | + | |

- | <you want to remesh one side, copy another side, and that the two sides have a common edge, then you must first use CopyRemesher,regenrated ! </ | + | |

==== Transfinite Meshers ==== | ==== Transfinite Meshers ==== | ||

- | Sometimes, it is useful to first mesh curves using the [[doc: | + | Sometimes, it is useful to first mesh curves using the [[doc:which is not certain when using Gen4 alone). However, at this point, it is not possible to use the SimpleMesher1D for remeshing (again, simply because I never had the use for it). Also, you cannot remesh using [[doc: |

+ | | ||

+ | You can, however, use transfinite meshers to define your first, initial mesh. This initial mesh can indeed be created using any configuration of meshers one can think of. However, reading the results afterwards is going to be annoying. | ||

- | At this point, it is not possible to use the SimpleMesher1D for remeshing (again, simply because I never had the use for it). | + | For example, let us assume that TransfiniteMesher2D is used to create the first mesh. Then, for the first integration,again. |

+ | For the others integrations, Gen4Remesher is used, and a mesh file is saved, so reloading the fac means reading the mesh file. | ||

- | Also, you cannot remesh using [[doc:mesher]], simply because I have been able to do all I want with Gen4 and did not take the time to program it. Feel free to do it if you want. | + | However, when loading a fac, there is no way to know which operations should be done, executing the transfinite mesher or reading the gen4 mesh file. Consequently, the test-case will have to be slightly modified depending on the results you want to read. This is annoying indeed, and could be solve if mesh files were saved for any meshers. In would be interesting to do so, but well... |

===== Data Transfer ===== | ===== Data Transfer ===== | ||

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By default, the transfer of data is done using Philippe' | By default, the transfer of data is done using Philippe' | ||

- | For the advanced user, changing these parameters is possible (in the '' | + | For the __advanced__ user, changing these parameters is possible (in the '' |

==== Changing the transfer method ==== | ==== Changing the transfer method ==== | ||

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cell.addOption(INTPT_NB, | cell.addOption(INTPT_NB, | ||

- | To understand all these options, please look at [[doc: | + | To understand all these options, please look at [[doc:. |

==== Changing the fields to transfer ==== | ==== Changing the fields to transfer ==== | ||

- | The list of fields which must be transferred is defined by default. If, amongst these fields, some are not to be transferred, | + | The list of fields which must be transferred is defined by default. If, among these fields, some are not to be transferred, |

autoRemesh = AutomaticRemeshing(getMetafor, | autoRemesh = AutomaticRemeshing(getMetafor, | ||

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| | ||

autoRemesh.setInteractionToPostStep(101) | autoRemesh.setInteractionToPostStep(101) | ||

+ | autoRemesh.setInteractionToPostStep(102) | ||

- | will recompute all contact properties on the interaction 101. | + | will recompute all contact properties on the interaction 101 and 102. |

===== Balancing ===== | ===== Balancing ===== | ||

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$\boldsymbol{F}^{int}=\boldsymbol{F}^{ext}$ | $\boldsymbol{F}^{int}=\boldsymbol{F}^{ext}$ | ||

- | After remeshing and data transfer, this equation is no longer true, so we have (where the $\boldsymbol{F}_t$ means force after transfer) | + | After remeshing and data transfer, this equation is no longer true, so we have (where the index $t$ in $\boldsymbol{F}_t$ means that we consider the value after transfer) |

$\boldsymbol{F}^{unbal} = \boldsymbol{F}^{int}_t - \boldsymbol{F}^{ext}_t$ | $\boldsymbol{F}^{unbal} = \boldsymbol{F}^{int}_t - \boldsymbol{F}^{ext}_t$ | ||

- | The post-remeshing algorithm is simply a variation of the quasi-static integration scheme where this imbalance is to be solved. First, we simply try to solve the equation as it is. If it works, then the imbalance is corrected and the real integration can start again. If it does not work, then an increasing fraction of the unbalanced forces are applied as external forces, in order to solve the imbalance little by little. | + | The post-remeshing algorithm is simply a variation of the quasi-static integration scheme where this imbalance is to be solved. First, we simply try to solve the equation as it is. If it works, then the imbalance is corrected and the real integration can start again. If it does not work, then an increasing fraction of the unbalanced forces are applied as external forces, in order to solve the imbalance little by little. Once verified for a given fraction, the the unbalanced forces are recomputed and the algorithm started again, until equilibrium is restored. |

Mathematically, | Mathematically, | ||

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$$ = (1-\alpha_F) \boldsymbol{F}^{\text{ext}}(t^{n+1}) + \alpha_F \boldsymbol{F}^{\text{ext}}(t^n)$$ | $$ = (1-\alpha_F) \boldsymbol{F}^{\text{ext}}(t^{n+1}) + \alpha_F \boldsymbol{F}^{\text{ext}}(t^n)$$ | ||

- | The idea is similar : after remeshing, there is some imbalance and the equation is no longer verified, so we want to apply a balancing algorithm to restore equilibrium before restarting the computation. Since the time is stopped, inertial forces are kept as they are and only internal forces are modified to satisfy equilibrium. In the same way as for a quasi-static simulation, this is done by applying as external forces an increasing fraction of the unbalanced forces. | + | The idea is similar : after remeshing, there is some imbalance and the equation is no longer verified, so we want to apply a balancing algorithm to restore equilibrium before restarting the computation. Since the time is stopped, inertial forces are kept as they are and only internal forces are modified to satisfy equilibrium. In the same way as for a quasi-static simulation, this is done by applying as external forces an increasing fraction of the unbalanced forces. The difference with respect to the quasi-static algorithm is the expression of the unbalanced forces, which will here also contains the inertial forces and the forces computed at the previous time step. |

Since we conserve the inertial forces and correct the internal ones, this post-remeshing algorithm works quite well for quasi-static and low speed dynamic computations. For high speed dynamic computations, | Since we conserve the inertial forces and correct the internal ones, this post-remeshing algorithm works quite well for quasi-static and low speed dynamic computations. For high speed dynamic computations, | ||

+ | |||

+ | ==== Options ==== | ||

+ | |||

+ | The complete '' | ||

+ | |||

+ | setBalancing(executeBalancing, | ||

+ | | ||

+ | The first argument has already been described and indicates whether balancing should be done or not. | ||

+ | |||

+ | For the advanced user, a few options can be played with by changing the three of arguments. | ||

+ | |||

+ | First of all, it is possible to deactivate the '' | ||

+ | |||

+ | Second, the number of iterations for each step of the balancing can be changed. By default, seven iterations are tried before increasing the fraction of the unbalanced forces and starting again. | ||

+ | |||

+ | Finally, the tolerance can also be changed. The parameter $\alpha$, used to ponder the unbalanced forces, starts at 1 and is progressively divided by 2 when a step fails. Once $\alpha$ becomes smaller than the tolerance, the algo stops itself, returns an error, and the temporal integrationdoes not restart. The default value of 0.001 can be changed if needed. | ||

+ | |||

+ | --- // |

doc/user/remeshing/remeshing.txt · Last modified: 2018/05/04 15:47 by boman