Samplers¶

class
optuna.samplers.
BaseSampler
[source]¶ Base class for samplers.
Optuna combines two types of sampling strategies, which are called relative sampling and independent sampling.
The relative sampling determines values of multiple parameters simultaneously so that sampling algorithms can use relationship between parameters (e.g., correlation). Target parameters of the relative sampling are described in a relative search space, which is determined by
infer_relative_search_space()
.The independent sampling determines a value of a single parameter without considering any relationship between parameters. Target parameters of the independent sampling are the parameters not described in the relative search space.
More specifically, parameters are sampled by the following procedure. At the beginning of a trial,
infer_relative_search_space()
is called to determine the relative search space for the trial. Then,sample_relative()
is invoked to sample parameters from the relative search space. During the execution of the objective function,sample_independent()
is used to sample parameters that don’t belong to the relative search space.The following figure depicts the lifetime of a trial and how the above three methods are called in the trial.

infer_relative_search_space
(study, trial)[source]¶ Infer the search space that will be used by relative sampling in the target trial.
This method is called right before
sample_relative()
method, and the search space returned by this method is pass to it. The parameters not contained in the search space will be sampled by usingsample_independent()
method.Parameters:  study – Target study object.
 trial – Target trial object.
Returns: A dictionary containing the parameter names and parameter’s distributions.
See also
Please refer to
intersection_search_space()
as an implementation ofinfer_relative_search_space()
.

sample_independent
(study, trial, param_name, param_distribution)[source]¶ Sample a parameter for a given distribution.
This method is called only for the parameters not contained in the search space returned by
sample_relative()
method. This method is suitable for sampling algorithms that do not use relationship between parameters such as random sampling and TPE.Parameters:  study – Target study object.
 trial – Target trial object.
 param_name – Name of the sampled parameter.
 param_distribution – Distribution object that specifies a prior and/or scale of the sampling algorithm.
Returns: A parameter value.

sample_relative
(study, trial, search_space)[source]¶ Sample parameters in a given search space.
This method is called once at the beginning of each trial, i.e., right before the evaluation of the objective function. This method is suitable for sampling algorithms that use relationship between parameters such as Gaussian Process and CMAES.
Parameters:  study – Target study object.
 trial – Target trial object.
 search_space – The search space returned by
infer_relative_search_space()
.
Returns: A dictionary containing the parameter names and the values.


class
optuna.samplers.
GridSampler
(search_space)[source]¶ Sampler using grid search.
With
GridSampler
, the trials suggest all combinations of parameters in the given search space during the study.Example
import optuna def objective(trial): x = trial.suggest_uniform('x', 100, 100) y = trial.suggest_int('y', 100, 100) return x ** 2 + y ** 2 search_space = { 'x': [50, 0, 50], 'y': [99, 0, 99] } study = optuna.create_study(sampler=optuna.samplers.GridSampler(search_space)) study.optimize(objective, n_trials=3*3)
Note
GridSampler
raises an error if all combinations in the passedsearch_space
has already been evaluated. Please make sure that unnecessary trials do not run during optimization by properly settingn_trials
in theoptimize()
method.Note
GridSampler
does not take care of a parameter’s quantization specified by discrete suggest methods but just samples one of values specified in the search space. E.g., in the following code snippet, either of0.5
or0.5
is sampled asx
instead of an integer point.import optuna def objective(trial): # The following suggest method specifies integer points between 5 and 5. x = trial.suggest_discrete_uniform('x', 5, 5, 1) return x ** 2 # Nonint points are specified in the grid. search_space = {'x': [0.5, 0.5]} study = optuna.create_study(sampler=optuna.samplers.GridSampler(search_space)) study.optimize(objective, n_trials=2)
Parameters: search_space – A dictionary whose key and value are a parameter name and the corresponding candidates of values, respectively. Note
Added in v1.2.0 as an experimental feature. The interface may change in newer versions without prior notice. See https://github.com/optuna/optuna/releases/tag/v1.2.0.

class
optuna.samplers.
RandomSampler
(seed=None)[source]¶ Sampler using random sampling.
This sampler is based on independent sampling. See also
BaseSampler
for more details of ‘independent sampling’.Example
>>> study = optuna.create_study(sampler=RandomSampler()) >>> study.optimize(objective, direction='minimize')
 Args:
 seed: Seed for random number generator.

class
optuna.samplers.
TPESampler
(consider_prior=True, prior_weight=1.0, consider_magic_clip=True, consider_endpoints=False, n_startup_trials=10, n_ei_candidates=24, gamma=<function default_gamma>, weights=<function default_weights>, seed=None)[source]¶ Sampler using TPE (Treestructured Parzen Estimator) algorithm.
This sampler is based on independent sampling. See also
BaseSampler
for more details of ‘independent sampling’.On each trial, for each parameter, TPE fits one Gaussian Mixture Model (GMM)
l(x)
to the set of parameter values associated with the best objective values, and another GMMg(x)
to the remaining parameter values. It chooses the parameter valuex
that maximizes the ratiol(x)/g(x)
.For further information about TPE algorithm, please refer to the following papers:
 Algorithms for HyperParameter Optimization
 Making a Science of Model Search: Hyperparameter Optimization in Hundreds of Dimensions for Vision Architectures
Example
import optuna from optuna.samplers import TPESampler def objective(trial): x = trial.suggest_uniform('x', 10, 10) return x**2 study = optuna.create_study(sampler=TPESampler()) study.optimize(objective, n_trials=100)

static
hyperopt_parameters
()[source]¶ Return the the default parameters of hyperopt (v0.1.2).
TPESampler
can be instantiated with the parameters returned by this method.Example
Create a
TPESampler
instance with the default parameters of hyperopt.import optuna from optuna.samplers import TPESampler def objective(trial): x = trial.suggest_uniform('x', 10, 10) return x**2 sampler = TPESampler(**TPESampler.hyperopt_parameters()) study = optuna.create_study(sampler=sampler) study.optimize(objective, n_trials=100)
Returns: A dictionary containing the default parameters of hyperopt.

optuna.samplers.
intersection_search_space
(study)[source]¶ Return the intersection search space of the
BaseStudy
.Intersection search space contains the intersection of parameter distributions that have been suggested in the completed trials of the study so far. If there are multiple parameters that have the same name but different distributions, neither is included in the resulting search space (i.e., the parameters with dynamic value ranges are excluded).
Returns: A dictionary containing the parameter names and parameter’s distributions.