SORMAnalysis¶
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class
persalys.
SORMAnalysis
(*args)¶ Run a reliability analysis using the SORM method.
Parameters: name : str
Name
limitState :
LimitState
Limit state
Examples
>>> import openturns as ot >>> import persalys
Create the model:
>>> R = persalys.Input('R', 0., ot.LogNormalMuSigma(300., 30., 0.).getDistribution(), 'Yield strength') >>> F = persalys.Input('F', 0., ot.Normal(75000., 5000.), 'Traction load') >>> G = persalys.Output('G', 'deviation') >>> myPhysicalModel = persalys.SymbolicPhysicalModel('myPhysicalModel', [R, F], [G], ['R-F/(pi_*100.0)'])
Create the limit state:
>>> limitState = persalys.LimitState('ls1', myPhysicalModel, 'G', ot.Less(), 0.)
Process a reliability analysis using the SORM method:
>>> analysis = persalys.SORMAnalysis('myAnalysis', limitState) >>> analysis.run()
Get the result:
>>> result = analysis.getResult().getSORMResult() >>> pf = result.getEventProbabilityBreitung() >>> designPoint = result.getStandardSpaceDesignPoint()
Methods
getClassName
()Accessor to the object’s name. getErrorMessage
()Error message accessor. getId
()Accessor to the object’s id. getInterestVariables
()Get the variables to analyse. getLimitState
()Limit-state accessor. getName
()Accessor to the object’s name. getOptimizationAlgorithm
()Accessor to the optimization algorithm used to find the design point. getPhysicalModel
()Physical model accessor. getPhysicalStartingPoint
()Physical starting point accessor. getPythonScript
()Physical model accessor. getResult
()Result accessor. getShadowedId
()Accessor to the object’s shadowed id. getVisibility
()Accessor to the object’s visibility state. getWarningMessage
()Warning message accessor. hasName
()Test if the object is named. hasValidResult
()Whether the analysis has been run. hasVisibleName
()Test if the object has a distinguishable name. isReliabilityAnalysis
()Whether the analysis involves reliability. isRunning
()Whether the analysis is running. run
()Launch the analysis. setInterestVariables
(outputsNames)Set the variables to analyse. setName
(name)Accessor to the object’s name. setOptimizationAlgorithm
(solver)Accessor to the optimization algorithm used to find the design point. setPhysicalStartingPoint
(point)Physical starting point accessor. setShadowedId
(id)Accessor to the object’s shadowed id. setVisibility
(visible)Accessor to the object’s visibility state. -
__init__
(*args)¶
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getClassName
()¶ Accessor to the object’s name.
Returns: class_name : str
The object class name (object.__class__.__name__).
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getErrorMessage
()¶ Error message accessor.
Returns: message : str
Error message if the analysis failed
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getId
()¶ Accessor to the object’s id.
Returns: id : int
Internal unique identifier.
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getInterestVariables
()¶ Get the variables to analyse.
Returns: variablesNames : sequence of str
Names of the variables to analyse
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getLimitState
()¶ Limit-state accessor.
Returns: limitState :
LimitState
The Limit-state.
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getName
()¶ Accessor to the object’s name.
Returns: name : str
The name of the object.
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getOptimizationAlgorithm
()¶ Accessor to the optimization algorithm used to find the design point.
Returns: algorithm :
openturns.OptimizationAlgorithm
Optimization algorithm used to research the design point. Cobyla is the default used algorithm.
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getPhysicalModel
()¶ Physical model accessor.
Returns: model :
PhysicalModel
Physical model
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getPhysicalStartingPoint
()¶ Physical starting point accessor.
Returns: point :
openturns.Point
Physical starting point. By default it set to the mean of the composed distribution of the physical model
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getPythonScript
()¶ Physical model accessor.
Returns: script : str
Python script to replay the analysis
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getResult
()¶ Result accessor.
Returns: result :
SORMAnalysisResult
Result
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getShadowedId
()¶ Accessor to the object’s shadowed id.
Returns: id : int
Internal unique identifier.
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getVisibility
()¶ Accessor to the object’s visibility state.
Returns: visible : bool
Visibility flag.
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getWarningMessage
()¶ Warning message accessor.
Returns: message : str
Warning message which can appear during the analysis computation
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hasName
()¶ Test if the object is named.
Returns: hasName : bool
True if the name is not empty.
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hasValidResult
()¶ Whether the analysis has been run.
Returns: hasValidResult : bool
Whether the analysis has already been run
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hasVisibleName
()¶ Test if the object has a distinguishable name.
Returns: hasVisibleName : bool
True if the name is not empty and not the default one.
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isReliabilityAnalysis
()¶ Whether the analysis involves reliability.
Returns: isReliabilityAnalysis : bool
Whether the analysis involves a reliability analysis
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isRunning
()¶ Whether the analysis is running.
Returns: isRunning : bool
Whether the analysis is running
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run
()¶ Launch the analysis.
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setInterestVariables
(outputsNames)¶ Set the variables to analyse.
Parameters: variablesNames : sequence of str
Names of the variables to analyse
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setName
(name)¶ Accessor to the object’s name.
Parameters: name : str
The name of the object.
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setOptimizationAlgorithm
(solver)¶ Accessor to the optimization algorithm used to find the design point.
Parameters: algorithm :
openturns.OptimizationAlgorithm
Optimization algorithm used to research the design point. Cobyla is the default used algorithm.
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setPhysicalStartingPoint
(point)¶ Physical starting point accessor.
Parameters: point : sequence of float
Physical starting point. By default it set to the mean of the composed distribution of the physical model
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setShadowedId
(id)¶ Accessor to the object’s shadowed id.
Parameters: id : int
Internal unique identifier.
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setVisibility
(visible)¶ Accessor to the object’s visibility state.
Parameters: visible : bool
Visibility flag.
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