Source code for gemseo.problems.scalable.data_driven.discipline

# Copyright 2021 IRT Saint Exupéry, https://www.irt-saintexupery.com
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#    INITIAL AUTHORS - initial API and implementation and/or
#                  initial documentation
#        :author:  Matthias De Lozzo
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"""
Scalable discipline
===================

The :mod:`~gemseo.problems.scalable.data_driven.discipline`
implements the concept of scalable discipline.
This is a particular discipline
built from an input-output learning dataset associated with a function
and generalizing its behavior to a new user-defined problem dimension,
that is to say new user-defined input and output dimensions.

Alone or in interaction with other objects of the same type,
a scalable discipline can be used to compare the efficiency of an algorithm
applying to disciplines with respect to the problem dimension,
e.g. optimization algorithm, surrogate model, MDO formulation, MDA, ...

The :class:`.ScalableDiscipline` class implements this concept.
It inherits from the :class:`.MDODiscipline` class
in such a way that it can easily be used in a :class:`.Scenario`.
It is composed of a :class:`.ScalableModel`.

The user only needs to provide:

- the name of a class overloading :class:`.ScalableModel`,
- a dataset as an :class:`.Dataset`
- variables sizes as a dictionary
  whose keys are the names of inputs and outputs
  and values are their new sizes.
  If a variable is missing, its original size is considered.

The :class:`.ScalableModel` parameters can also be filled in,
otherwise the model uses default values.
"""
from __future__ import annotations

import logging

from gemseo.core.discipline import MDODiscipline
from gemseo.problems.scalable.data_driven.factory import ScalableModelFactory
from gemseo.utils.data_conversion import split_array_to_dict_of_arrays

LOGGER = logging.getLogger(__name__)


[docs]class ScalableDiscipline(MDODiscipline): """Scalable discipline.""" def __init__(self, name, data, sizes=None, **parameters): """Constructor. :param str name: scalable model class name. :param Dataset data: learning dataset. :param dict sizes: sizes of input and output variables. If None, use the original sizes. Default: None. :param parameters: model parameters """ create = ScalableModelFactory().create self.scalable_model = create(name, data=data, sizes=sizes, **parameters) super().__init__(self.scalable_model.name) self.initialize_grammars(data) self.default_inputs = self.scalable_model.default_inputs self.re_exec_policy = self.RE_EXECUTE_DONE_POLICY self.add_differentiated_inputs(self.get_input_data_names()) self.add_differentiated_outputs(self.get_output_data_names())
[docs] def initialize_grammars(self, data): """Initialize input and output grammars from data names. :param Dataset data: learning dataset. """ self.input_grammar.update(data.get_names(data.INPUT_GROUP)) self.output_grammar.update(data.get_names(data.OUTPUT_GROUP))
def _run(self): """Runs the scalable discipline and stores the output values.""" output_value = self.scalable_model.scalable_function(self.local_data) self.local_data.update(output_value) def _compute_jacobian(self, inputs=None, outputs=None): """Compute the Jacobian of outputs wrt inputs and store the values. :param inputs: list of input variables. Default value: None. :type inputs: list(str) :param outputs: list of output functions. Default value: None. :type outputs: list(str) """ self._init_jacobian(inputs, outputs, with_zeros=True) jac = self.scalable_model.scalable_derivatives(self.local_data) inputs_names = self.scalable_model.inputs_names jac = { fname: split_array_to_dict_of_arrays( jac[fname], self.scalable_model.sizes, inputs_names ) for fname in self.get_output_data_names() } self.jac = jac