ImportanceSamplingAnalysis

class persalys.ImportanceSamplingAnalysis(*args)

Run importance sampling for reliability analysis.

Parameters
namestr

Name

limitStateLimitState

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 the reliability analysis:

>>> analysis = persalys.ImportanceSamplingAnalysis('myAnalysis', limitState)
>>> analysis.setStandardSpaceDesignPoint([-1.59388,0.998942])
>>> analysis.run()

Get the result:

>>> result = analysis.getResult()
>>> pf = result.getSimulationResult().getProbabilityEstimate()

Methods

getBlockSize()

Block size accessor.

getClassName()

Accessor to the object's name.

getErrorMessage()

Error message accessor.

getInterestVariables()

Get the variables to analyse.

getLimitState()

Limit-state accessor.

getMaximumCalls()

Maximum calls accessor.

getMaximumCoefficientOfVariation()

Maximum coefficient of variation accessor.

getMaximumElapsedTime()

Maximum elapsed time accessor.

getName()

Accessor to the object's name.

getPhysicalModel()

Physical model accessor.

getPythonScript()

Physical model accessor.

getResult()

Result accessor.

getSeed()

Seed accessor.

getStandardSpaceDesignPoint()

Accessor to standard space design point.

getWarningMessage()

Warning message accessor.

hasName()

Test if the object is named.

hasValidResult()

Whether the analysis has been run.

isReliabilityAnalysis()

Whether the analysis involves reliability.

isRunning()

Whether the analysis is running.

run()

Launch the analysis.

setBlockSize(size)

Block size accessor.

setInterestVariables(outputsNames)

Set the variables to analyse.

setMaximumCalls(maxi)

Maximum calls accessor.

setMaximumCoefficientOfVariation(coef)

Maximum coefficient of variation accessor.

setMaximumElapsedTime(seconds)

Maximum elapsed time accessor.

setName(name)

Accessor to the object's name.

setSeed(seed)

Seed accessor.

setStandardSpaceDesignPoint(point)

Accessor to standard space design point.

canBeLaunched

getElapsedTime

getParentObserver
__init__(*args)
getBlockSize()

Block size accessor.

Returns
sizeint

Number of terms in the probability simulation estimator grouped together. It is set by default to 1.

getClassName()

Accessor to the object’s name.

Returns
class_namestr

The object class name (object.__class__.__name__).

getErrorMessage()

Error message accessor.

Returns
messagestr

Error message if the analysis failed

getInterestVariables()

Get the variables to analyse.

Returns
variablesNamessequence of str

Names of the variables to analyse

getLimitState()

Limit-state accessor.

Returns
limitStateLimitState

The Limit-state.

getMaximumCalls()

Maximum calls accessor.

Returns
maxCallspositive int

The maximum calls of the function.

getMaximumCoefficientOfVariation()

Maximum coefficient of variation accessor.

Returns
maxCoefdouble

The maximum coefficient of variation. It is set by default to 0.01.

getMaximumElapsedTime()

Maximum elapsed time accessor.

Returns
maxTimepositive int

The maximum elapsed time in seconds. It is set by default to 60 seconds.

getName()

Accessor to the object’s name.

Returns
namestr

The name of the object.

getPhysicalModel()

Physical model accessor.

Returns
modelPhysicalModel

Physical model

getPythonScript()

Physical model accessor.

Returns
scriptstr

Python script to replay the analysis

getResult()

Result accessor.

Returns
resultSimulationReliabilityResult

Result

getSeed()

Seed accessor.

Returns
seedint

Seed

getStandardSpaceDesignPoint()

Accessor to standard space design point.

Returns
pointopenturns.Point

Standard space design point. It is the mean of the Normal distribution used to sample.

getWarningMessage()

Warning message accessor.

Returns
messagestr

Warning message which can appear during the analysis computation

hasName()

Test if the object is named.

Returns
hasNamebool

True if the name is not empty.

hasValidResult()

Whether the analysis has been run.

Returns
hasValidResultbool

Whether the analysis has already been run

isReliabilityAnalysis()

Whether the analysis involves reliability.

Returns
isReliabilityAnalysisbool

Whether the analysis involves a reliability analysis

isRunning()

Whether the analysis is running.

Returns
isRunningbool

Whether the analysis is running

run()

Launch the analysis.

setBlockSize(size)

Block size accessor.

Parameters
sizeint

Number of terms in the probability simulation estimator grouped together. It is set by default to 1.

setInterestVariables(outputsNames)

Set the variables to analyse.

Parameters
variablesNamessequence of str

Names of the variables to analyse

setMaximumCalls(maxi)

Maximum calls accessor.

Parameters
maxCallspositive int

The maximum calls of the function.

setMaximumCoefficientOfVariation(coef)

Maximum coefficient of variation accessor.

Parameters
maxCoefdouble

The maximum coefficient of variation. It is set by default to 0.01.

setMaximumElapsedTime(seconds)

Maximum elapsed time accessor.

Parameters
maxTimepositive int

The maximum elapsed time in seconds. It is set by default to 60 seconds.

setName(name)

Accessor to the object’s name.

Parameters
namestr

The name of the object.

setSeed(seed)

Seed accessor.

Parameters
seedint

Seed

setStandardSpaceDesignPoint(point)

Accessor to standard space design point.

Parameters
pointsequence of float

Standard space design point. It is the mean of the Normal distribution used to sample