Note
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Deterministic design of experiments¶
In this example we present the available deterministic design of experiments.
Four types of deterministic design of experiments are available:
Axial
Factorial
Composite
Box
Each type of deterministic design is discretized differently according to a number of levels.
Functionally speaking, a design is a Sample that lies within the unit cube and can be scaled and moved to cover the desired box.
import openturns as ot
import openturns.viewer as viewer
from matplotlib import pylab as plt
ot.Log.Show(ot.Log.NONE)
We will use the following function to plot bi-dimensional samples.
def drawBidimensionalSample(sample, title):
n = sample.getSize()
graph = ot.Graph("%s, size=%d" % (title, n), "X1", "X2", True, "")
cloud = ot.Cloud(sample)
graph.add(cloud)
return graph
Axial design¶
levels = [1.0, 1.5, 3.0]
experiment = ot.Axial(2, levels)
sample = experiment.generate()
graph = drawBidimensionalSample(sample, "Axial")
view = viewer.View(graph)
Scale and to get desired location.
sample *= 2.0
sample += [5.0, 8.0]
graph = drawBidimensionalSample(sample, "Axial")
view = viewer.View(graph)
Factorial design¶
experiment = ot.Factorial(2, levels)
sample = experiment.generate()
sample *= 2.0
sample += [5.0, 8.0]
graph = drawBidimensionalSample(sample, "Factorial")
view = viewer.View(graph)
Composite design¶
experiment = ot.Composite(2, levels)
sample = experiment.generate()
sample *= 2.0
sample += [5.0, 8.0]
graph = drawBidimensionalSample(sample, "Composite")
view = viewer.View(graph)
Grid design¶
levels = [3, 4]
experiment = ot.Box(levels)
sample = experiment.generate()
sample *= 2.0
sample += [5.0, 8.0]
graph = drawBidimensionalSample(sample, "Box")
view = viewer.View(graph)
plt.show()
Total running time of the script: ( 0 minutes 0.333 seconds)