Scatter plot matrix¶

In this example, we illustrate the use of the ScatterPlotMatrix plot on the Sobieski’s SSBJ problem.

from __future__ import annotations

from gemseo import configure_logger
from gemseo import create_discipline
from gemseo import create_scenario
from gemseo.problems.sobieski.core.design_space import SobieskiDesignSpace


Import¶

The first step is to import some high-level functions and a method to get the design space.

configure_logger()

<RootLogger root (INFO)>


Description¶

The ScatterPlotMatrix post-processing builds the scatter plot matrix among design variables and outputs functions. Each non-diagonal block represents the samples according to the x- and y- coordinates names while the diagonal ones approximate the probability distributions of the variables, using a kernel-density estimator.

Create disciplines¶

At this point, we instantiate the disciplines of Sobieski’s SSBJ problem: Propulsion, Aerodynamics, Structure and Mission

disciplines = create_discipline([
"SobieskiPropulsion",
"SobieskiAerodynamics",
"SobieskiStructure",
"SobieskiMission",
])


Create design space¶

We also create the SobieskiDesignSpace.

design_space = SobieskiDesignSpace()


Create and execute scenario¶

The next step is to build a DOE scenario in order to maximize the range, encoded ‘y_4’, with respect to the design parameters, while satisfying the inequality constraints ‘g_1’, ‘g_2’ and ‘g_3’. We can use the MDF formulation, the Monte Carlo DOE algorithm and 30 samples.

scenario = create_scenario(
disciplines,
formulation="MDF",
objective_name="y_4",
maximize_objective=True,
design_space=design_space,
scenario_type="DOE",
)
scenario.set_differentiation_method()
for constraint in ["g_1", "g_2", "g_3"]:
scenario.execute({"algo": "OT_MONTE_CARLO", "n_samples": 30})

    INFO - 10:58:03:
INFO - 10:58:03: *** Start DOEScenario execution ***
INFO - 10:58:03: DOEScenario
INFO - 10:58:03:    Disciplines: SobieskiAerodynamics SobieskiMission SobieskiPropulsion SobieskiStructure
INFO - 10:58:03:    MDO formulation: MDF
INFO - 10:58:03: Optimization problem:
INFO - 10:58:03:    minimize -y_4(x_shared, x_1, x_2, x_3)
INFO - 10:58:03:    with respect to x_1, x_2, x_3, x_shared
INFO - 10:58:03:    subject to constraints:
INFO - 10:58:03:       g_1(x_shared, x_1, x_2, x_3) <= 0.0
INFO - 10:58:03:       g_2(x_shared, x_1, x_2, x_3) <= 0.0
INFO - 10:58:03:       g_3(x_shared, x_1, x_2, x_3) <= 0.0
INFO - 10:58:03:    over the design space:
INFO - 10:58:03:       +-------------+-------------+-------+-------------+-------+
INFO - 10:58:03:       | Name        | Lower bound | Value | Upper bound | Type  |
INFO - 10:58:03:       +-------------+-------------+-------+-------------+-------+
INFO - 10:58:03:       | x_shared[0] |     0.01    |  0.05 |     0.09    | float |
INFO - 10:58:03:       | x_shared[1] |    30000    | 45000 |    60000    | float |
INFO - 10:58:03:       | x_shared[2] |     1.4     |  1.6  |     1.8     | float |
INFO - 10:58:03:       | x_shared[3] |     2.5     |  5.5  |     8.5     | float |
INFO - 10:58:03:       | x_shared[4] |      40     |   55  |      70     | float |
INFO - 10:58:03:       | x_shared[5] |     500     |  1000 |     1500    | float |
INFO - 10:58:03:       | x_1[0]      |     0.1     |  0.25 |     0.4     | float |
INFO - 10:58:03:       | x_1[1]      |     0.75    |   1   |     1.25    | float |
INFO - 10:58:03:       | x_2         |     0.75    |   1   |     1.25    | float |
INFO - 10:58:03:       | x_3         |     0.1     |  0.5  |      1      | float |
INFO - 10:58:03:       +-------------+-------------+-------+-------------+-------+
INFO - 10:58:03: Solving optimization problem with algorithm OT_MONTE_CARLO:
INFO - 10:58:03:      3%|▎         | 1/30 [00:00<00:03,  7.27 it/sec, obj=-166]
INFO - 10:58:03:      7%|▋         | 2/30 [00:00<00:02, 10.45 it/sec, obj=-484]
INFO - 10:58:03:     10%|█         | 3/30 [00:00<00:02, 12.39 it/sec, obj=-481]
INFO - 10:58:03:     13%|█▎        | 4/30 [00:00<00:01, 13.75 it/sec, obj=-384]
INFO - 10:58:03:     17%|█▋        | 5/30 [00:00<00:01, 14.66 it/sec, obj=-1.14e+3]
INFO - 10:58:03:     20%|██        | 6/30 [00:00<00:01, 15.33 it/sec, obj=-290]
INFO - 10:58:03:     23%|██▎       | 7/30 [00:00<00:01, 15.52 it/sec, obj=-630]
INFO - 10:58:03:     27%|██▋       | 8/30 [00:00<00:01, 15.52 it/sec, obj=-346]
INFO - 10:58:03:     30%|███       | 9/30 [00:00<00:01, 15.72 it/sec, obj=-626]
INFO - 10:58:03:     33%|███▎      | 10/30 [00:00<00:01, 15.89 it/sec, obj=-621]
INFO - 10:58:03:     37%|███▋      | 11/30 [00:00<00:01, 15.89 it/sec, obj=-280]
INFO - 10:58:04:     40%|████      | 12/30 [00:00<00:01, 15.52 it/sec, obj=-288]
INFO - 10:58:04:     43%|████▎     | 13/30 [00:00<00:01, 15.34 it/sec, obj=-257]
INFO - 10:58:04:     47%|████▋     | 14/30 [00:00<00:01, 15.15 it/sec, obj=-367]
INFO - 10:58:04:     50%|█████     | 15/30 [00:00<00:00, 15.12 it/sec, obj=-1.08e+3]
INFO - 10:58:04:     53%|█████▎    | 16/30 [00:01<00:00, 15.26 it/sec, obj=-344]
INFO - 10:58:04:     57%|█████▋    | 17/30 [00:01<00:00, 15.13 it/sec, obj=-368]
INFO - 10:58:04:     60%|██████    | 18/30 [00:01<00:00, 15.07 it/sec, obj=-253]
INFO - 10:58:04:     63%|██████▎   | 19/30 [00:01<00:00, 14.98 it/sec, obj=-129]
INFO - 10:58:04:     67%|██████▋   | 20/30 [00:01<00:00, 14.97 it/sec, obj=-1.07e+3]
INFO - 10:58:04:     70%|███████   | 21/30 [00:01<00:00, 15.15 it/sec, obj=-341]
INFO - 10:58:04:     73%|███████▎  | 22/30 [00:01<00:00, 15.25 it/sec, obj=-1e+3]
INFO - 10:58:04:     77%|███████▋  | 23/30 [00:01<00:00, 15.00 it/sec, obj=-586]
INFO - 10:58:04:     80%|████████  | 24/30 [00:01<00:00, 15.09 it/sec, obj=-483]
INFO - 10:58:04:     83%|████████▎ | 25/30 [00:01<00:00, 15.18 it/sec, obj=-392]
INFO - 10:58:04:     87%|████████▋ | 26/30 [00:01<00:00, 15.30 it/sec, obj=-406]
INFO - 10:58:05:     90%|█████████ | 27/30 [00:01<00:00, 15.21 it/sec, obj=-207]
INFO - 10:58:05:     93%|█████████▎| 28/30 [00:01<00:00, 15.35 it/sec, obj=-702]
INFO - 10:58:05:     97%|█████████▋| 29/30 [00:01<00:00, 15.49 it/sec, obj=-423]
INFO - 10:58:05:    100%|██████████| 30/30 [00:01<00:00, 15.55 it/sec, obj=-664]
INFO - 10:58:05: Optimization result:
INFO - 10:58:05:    Optimizer info:
INFO - 10:58:05:       Status: None
INFO - 10:58:05:       Message: None
INFO - 10:58:05:       Number of calls to the objective function by the optimizer: 30
INFO - 10:58:05:    Solution:
INFO - 10:58:05:       The solution is feasible.
INFO - 10:58:05:       Objective: -367.45728393799953
INFO - 10:58:05:       Standardized constraints:
INFO - 10:58:05:          g_1 = [-0.02478574 -0.00310924 -0.00855146 -0.01702654 -0.02484732 -0.04764585
INFO - 10:58:05:  -0.19235415]
INFO - 10:58:05:          g_2 = -0.09000000000000008
INFO - 10:58:05:          g_3 = [-0.98722984 -0.01277016 -0.60760341 -0.0557087 ]
INFO - 10:58:05:       Design space:
INFO - 10:58:05:          +-------------+-------------+---------------------+-------------+-------+
INFO - 10:58:05:          | Name        | Lower bound |        Value        | Upper bound | Type  |
INFO - 10:58:05:          +-------------+-------------+---------------------+-------------+-------+
INFO - 10:58:05:          | x_shared[0] |     0.01    | 0.01230934749207792 |     0.09    | float |
INFO - 10:58:05:          | x_shared[1] |    30000    |  43456.87364611478  |    60000    | float |
INFO - 10:58:05:          | x_shared[2] |     1.4     |  1.731884935123487  |     1.8     | float |
INFO - 10:58:05:          | x_shared[3] |     2.5     |  3.894765253193514  |     8.5     | float |
INFO - 10:58:05:          | x_shared[4] |      40     |  57.92631048228255  |      70     | float |
INFO - 10:58:05:          | x_shared[5] |     500     |  520.4048463450415  |     1500    | float |
INFO - 10:58:05:          | x_1[0]      |     0.1     |  0.3994784918586811 |     0.4     | float |
INFO - 10:58:05:          | x_1[1]      |     0.75    |  0.9500312867674923 |     1.25    | float |
INFO - 10:58:05:          | x_2         |     0.75    |  1.205851870260564  |     1.25    | float |
INFO - 10:58:05:          | x_3         |     0.1     |  0.2108042391973412 |      1      | float |
INFO - 10:58:05:          +-------------+-------------+---------------------+-------------+-------+
INFO - 10:58:05: *** End DOEScenario execution (time: 0:00:01.950012) ***

{'eval_jac': False, 'n_samples': 30, 'algo': 'OT_MONTE_CARLO'}


Post-process scenario¶

Lastly, we post-process the scenario by means of the ScatterPlotMatrix plot which builds scatter plot matrix among design variables, objective function and constraints.

Tip

Each post-processing method requires different inputs and offers a variety of customization options. Use the high-level function get_post_processing_options_schema() to print a table with the options for any post-processing algorithm. Or refer to our dedicated page: Post-processing algorithms.

design_variables = ["x_shared", "x_1", "x_2", "x_3"]
scenario.post_process(
"ScatterPlotMatrix",
variable_names=[*design_variables, "-y_4"],
save=False,
show=True,
)

<gemseo.post.scatter_mat.ScatterPlotMatrix object at 0x7efd665102b0>


Total running time of the script: (0 minutes 6.945 seconds)

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