Algorithm parameters¶
Group of all algorithm parameters |
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Main algorithm parameters |
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Convergence accelaration setting(s) |
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Force convergence |
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Special algorithm parameters for simulations with composite law (laminate, reuss, …) |
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- class py4amitex.input.AlgorithmParameters¶
Group of all algorithm parameters
- toXML(self: py4amitex.input.AlgorithmParameters) str¶
- class py4amitex.input.Algorithm¶
Main algorithm parameters
- property convergenceAcceleration¶
Toggle use of convergence acceleration
- property convergenceCriterion¶
convergence criterion (<1.e-3)
- property convergenceCriterionCompatibility¶
compatibility criterion
- property convergenceCriterionSmacro¶
Convergence criterion for macroscropic applied stress default value is the one used for convergenceCriterion
- property convergenceForced¶
Force convergence
- property initialize¶
Pre-step initialization (“default” or “previous”)
- property nitermax¶
max number of iteration
- property nitermin¶
minimum number of iterations (0 or 1)
- property niterminACV¶
minimum number of iterations (0 or 1) after each accelerated solution
- property substepping¶
- class py4amitex.input.Mechanics¶
- class py4amitex.input.Diffusion¶
- class py4amitex.input.ConvergenceAcceleration¶
Convergence accelaration setting(s)
- property modACV¶
number of iterations between two convergence accelerations
- class py4amitex.input.ConvergenceForced¶
Force convergence
- property nCVFor¶
TODO: Document
- property nitCVFor¶
TODO: Document
- class py4amitex.input.AlgorithmLaminate¶
Special algorithm parameters for simulations with composite law (laminate, reuss, …)
- property convergenceAcceleration¶
Toggle convergence acceleration
- property convergenceCriterion¶
Convergence criterion (>1e-4 and >1e-1)
- property initializationType¶
Initialization type (Proportionnal, Linear, Default (=Linear)
- property nIncrements¶
Number of substeps for laminate law
- class py4amitex.input.Substepping¶
- property depth¶
maximum number of impricated substeppings
- property geomRatio¶
after each substepping Nitermax2 = Geom_ratio * Nitermax2
- property nitermax2¶
initial number of iterations before supstepping
- property nsub¶
number of stubsteps when activating a new substepping
