Source code for smac.facade.multi_fidelity_facade

from __future__ import annotations

from ConfigSpace import Configuration

from smac.facade.hyperparameter_optimization_facade import (
    HyperparameterOptimizationFacade,
)
from smac.initial_design.random_design import RandomInitialDesign
from smac.intensifier.hyperband import Hyperband
from smac.scenario import Scenario

__copyright__ = "Copyright 2022, automl.org"
__license__ = "3-clause BSD"


[docs]class MultiFidelityFacade(HyperparameterOptimizationFacade): """This facade configures SMAC in a multi-fidelity setting."""
[docs] @staticmethod def get_intensifier( # type: ignore scenario: Scenario, *, eta: int = 3, n_seeds: int = 1, instance_seed_order: str | None = "shuffle_once", max_incumbents: int = 10, incumbent_selection: str = "highest_observed_budget", ) -> Hyperband: """Returns a Hyperband intensifier instance. Budgets are supported. eta : int, defaults to 3 Input that controls the proportion of configurations discarded in each round of Successive Halving. n_seeds : int, defaults to 1 How many seeds to use for each instance. instance_seed_order : str, defaults to "shuffle_once" How to order the instance-seed pairs. Can be set to: * None: No shuffling at all and use the instance-seed order provided by the user. * "shuffle_once": Shuffle the instance-seed keys once and use the same order across all runs. * "shuffle": Shuffles the instance-seed keys for each bracket individually. incumbent_selection : str, defaults to "any_budget" How to select the incumbent when using budgets. Can be set to: * "any_budget": Incumbent is the best on any budget, i.e., the best performance regardless of budget. * "highest_observed_budget": Incumbent is the best in the highest budget run so far. refer to `runhistory.get_trials` for more details. Crucially, if true, then a for a given config-instance-seed, only the highest (so far executed) budget is used for comparison against the incumbent. Notice, that if the highest observed budget is smaller than the highest budget of the incumbent, the configuration will be queued again to be intensified again. * "highest_budget": Incumbent is selected only based on the absolute highest budget available only. max_incumbents : int, defaults to 10 How many incumbents to keep track of in the case of multi-objective. """ return Hyperband( scenario=scenario, eta=eta, n_seeds=n_seeds, instance_seed_order=instance_seed_order, max_incumbents=max_incumbents, incumbent_selection=incumbent_selection, )
[docs] @staticmethod def get_initial_design( # type: ignore scenario: Scenario, *, n_configs: int | None = None, n_configs_per_hyperparamter: int = 10, max_ratio: float = 0.25, additional_configs: list[Configuration] = [], ) -> RandomInitialDesign: """Returns a random initial design. Parameters ---------- scenario : Scenario n_configs : int | None, defaults to None Number of initial configurations (disables the arguments ``n_configs_per_hyperparameter``). n_configs_per_hyperparameter: int, defaults to 10 Number of initial configurations per hyperparameter. For example, if my configuration space covers five hyperparameters and ``n_configs_per_hyperparameter`` is set to 10, then 50 initial configurations will be samples. max_ratio: float, defaults to 0.1 Use at most ``scenario.n_trials`` * ``max_ratio`` number of configurations in the initial design. Additional configurations are not affected by this parameter. additional_configs: list[Configuration], defaults to [] Adds additional configurations to the initial design. """ return RandomInitialDesign( scenario=scenario, n_configs=n_configs, n_configs_per_hyperparameter=n_configs_per_hyperparamter, max_ratio=max_ratio, additional_configs=additional_configs, )