LowDiscrepancyExperiment¶
(Source code
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- class LowDiscrepancyExperiment(*args)¶
LowDiscrepancy experiment.
- Available constructors:
LowDiscrepancyExperiment(size, restart)
LowDiscrepancyExperiment(sequence, size, restart)
LowDiscrepancyExperiment(sequence, distribution, size, restart)
- Parameters:
- sizepositive int
Number of points of the sequence.
- sequence
LowDiscrepancySequence
Sequence of points with low discrepancy. If not specified, the sequence is a
SobolSequence
.- distribution
Distribution
Distribution of dimension . The low discrepancy sequence is uniformly distributed over . We use an iso-probabilistic transformation from the independent copula of dimension to the given distribution. The weights are all equal to .
- restartbool
Flag to tell if the low discrepancy sequence must be restarted from its initial state at each change of distribution or not. Default is True: the sequence is restarted at each change of distribution.
Methods
generate
()Generate points according to the type of the experiment.
Generate points and their associated weight according to the type of the experiment.
Accessor to the object's name.
Accessor to the distribution.
getName
()Accessor to the object's name.
Return the value of the randomize flag.
Return the value of the restart flag.
Return the sequence.
getSize
()Accessor to the size of the generated sample.
hasName
()Test if the object is named.
Ask whether the experiment has uniform weights.
isRandom
()Accessor to the randomness of quadrature.
setDistribution
(distribution)Accessor to the distribution.
setName
(name)Accessor to the object's name.
setRandomize
(randomize)Set the value of the randomize flag.
setRestart
(restart)Set the value of the restart flag.
setSize
(size)Accessor to the size of the generated sample.
See also
Notes
The
generate()
method generates points according to the distribution . When thegenerate()
method is called again, the generated sample changes. In case of dependent marginals, the approach based on [cambou2017] is used.Examples
>>> import openturns as ot >>> distribution = ot.JointDistribution([ot.Uniform(0.0, 1.0)] * 2)
Generate the sample with a reinitialization of the sequence at each change of distribution:
>>> experiment = ot.LowDiscrepancyExperiment(ot.SobolSequence(), distribution, 5, True) >>> print(experiment.generate()) [ y0 y1 ] 0 : [ 0.5 0.5 ] 1 : [ 0.75 0.25 ] 2 : [ 0.25 0.75 ] 3 : [ 0.375 0.375 ] 4 : [ 0.875 0.875 ] >>> print(experiment.generate()) [ y0 y1 ] 0 : [ 0.625 0.125 ] 1 : [ 0.125 0.625 ] 2 : [ 0.1875 0.3125 ] 3 : [ 0.6875 0.8125 ] 4 : [ 0.9375 0.0625 ] >>> experiment.setDistribution(distribution) >>> print(experiment.generate()) [ y0 y1 ] 0 : [ 0.5 0.5 ] 1 : [ 0.75 0.25 ] 2 : [ 0.25 0.75 ] 3 : [ 0.375 0.375 ] 4 : [ 0.875 0.875 ]
Generate the sample keeping the previous state of the sequence at each change of distribution:
>>> experiment = ot.LowDiscrepancyExperiment(ot.SobolSequence(), distribution, 5, False) >>> print(experiment.generate()) [ y0 y1 ] 0 : [ 0.5 0.5 ] 1 : [ 0.75 0.25 ] 2 : [ 0.25 0.75 ] 3 : [ 0.375 0.375 ] 4 : [ 0.875 0.875 ] >>> print(experiment.generate()) [ y0 y1 ] 0 : [ 0.625 0.125 ] 1 : [ 0.125 0.625 ] 2 : [ 0.1875 0.3125 ] 3 : [ 0.6875 0.8125 ] 4 : [ 0.9375 0.0625 ] >>> experiment.setDistribution(distribution) >>> print(experiment.generate()) [ y0 y1 ] 0 : [ 0.4375 0.5625 ] 1 : [ 0.3125 0.1875 ] 2 : [ 0.8125 0.6875 ] 3 : [ 0.5625 0.4375 ] 4 : [ 0.0625 0.9375 ]
Generate a sample according to a distribution with dependent marginals:
>>> distribution = ot.Normal([0.0]*2, ot.CovarianceMatrix(2, [4.0, 1.0, 1.0, 9.0])) >>> experiment = ot.LowDiscrepancyExperiment(ot.SobolSequence(), distribution, 5, False) >>> print(experiment.generate()) [ y0 y1 ] 0 : [ 0 0 ] 1 : [ 1.34898 -1.65792 ] 2 : [ -1.34898 1.65792 ] 3 : [ -0.637279 -1.10187 ] 4 : [ 2.3007 3.97795 ]
- __init__(*args)¶
- generate()¶
Generate points according to the type of the experiment.
- Returns:
- sample
Sample
Points of the design of experiments. The sampling method is defined by the type of the weighted experiment.
- sample
Examples
>>> import openturns as ot >>> ot.RandomGenerator.SetSeed(0) >>> myExperiment = ot.MonteCarloExperiment(ot.Normal(2), 5) >>> sample = myExperiment.generate() >>> print(sample) [ X0 X1 ] 0 : [ 0.608202 -1.26617 ] 1 : [ -0.438266 1.20548 ] 2 : [ -2.18139 0.350042 ] 3 : [ -0.355007 1.43725 ] 4 : [ 0.810668 0.793156 ]
- generateWithWeights()¶
Generate points and their associated weight according to the type of the experiment.
- Returns:
Examples
>>> import openturns as ot >>> ot.RandomGenerator.SetSeed(0) >>> myExperiment = ot.MonteCarloExperiment(ot.Normal(2), 5) >>> sample, weights = myExperiment.generateWithWeights() >>> print(sample) [ X0 X1 ] 0 : [ 0.608202 -1.26617 ] 1 : [ -0.438266 1.20548 ] 2 : [ -2.18139 0.350042 ] 3 : [ -0.355007 1.43725 ] 4 : [ 0.810668 0.793156 ] >>> print(weights) [0.2,0.2,0.2,0.2,0.2]
- getClassName()¶
Accessor to the object’s name.
- Returns:
- class_namestr
The object class name (object.__class__.__name__).
- getDistribution()¶
Accessor to the distribution.
- Returns:
- distribution
Distribution
Distribution of the input random vector.
- distribution
- getName()¶
Accessor to the object’s name.
- Returns:
- namestr
The name of the object.
- getRandomize()¶
Return the value of the randomize flag.
- Returns:
- randomizebool
The value of the randomize flag.
- getRestart()¶
Return the value of the restart flag.
- Returns:
- restartbool
The value of the restart flag.
- getSequence()¶
Return the sequence.
- Returns:
- sequence
LowDiscrepancySequence
Sequence of points with low discrepancy.
- sequence
- getSize()¶
Accessor to the size of the generated sample.
- Returns:
- sizepositive int
Number of points constituting the design of experiments.
- hasName()¶
Test if the object is named.
- Returns:
- hasNamebool
True if the name is not empty.
- hasUniformWeights()¶
Ask whether the experiment has uniform weights.
- Returns:
- hasUniformWeightsbool
Whether the experiment has uniform weights.
- isRandom()¶
Accessor to the randomness of quadrature.
- Parameters:
- isRandombool
Is true if the design of experiments is random. Otherwise, the design of experiment is assumed to be deterministic.
- setDistribution(distribution)¶
Accessor to the distribution.
- Parameters:
- distribution
Distribution
Distribution of the input random vector.
- distribution
- setName(name)¶
Accessor to the object’s name.
- Parameters:
- namestr
The name of the object.
- setRandomize(randomize)¶
Set the value of the randomize flag.
- Parameters:
- randomizebool
Use a cyclic scrambling of the low discrepancy sequence, it means, the whole low discrepancy sequence is translated by a random vector modulo 1. See [lecuyer2005] for the interest of such a scrambling. Default is False.
- setRestart(restart)¶
Set the value of the restart flag.
- Parameters:
- restartbool
The value of the restart flag. If equals to True, the low discrepancy sequence is restarted at each change of distribution, else it is changed only if the new distribution has a dimension different from the current one.
- setSize(size)¶
Accessor to the size of the generated sample.
- Parameters:
- sizepositive int
Number of points constituting the design of experiments.
Examples using the class¶
Create a polynomial chaos metamodel by integration on the cantilever beam
Use a randomized QMC algorithm
Time variant system reliability problem
Optimization of the Rastrigin test function