optuna.samplers.TPESampler
- 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, *, multivariate=False, group=False, warn_independent_sampling=True, constant_liar=False, constraints_func=None)[source]
Sampler using TPE (Tree-structured 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:
Example
import optuna from optuna.samplers import TPESampler def objective(trial): x = trial.suggest_float("x", -10, 10) return x**2 study = optuna.create_study(sampler=TPESampler()) study.optimize(objective, n_trials=10)
- Parameters
consider_prior (bool) – Enhance the stability of Parzen estimator by imposing a Gaussian prior when
True
. The prior is only effective if the sampling distribution is eitherFloatDistribution
, orIntDistribution
.prior_weight (float) – The weight of the prior. This argument is used in
FloatDistribution
,IntDistribution
, andCategoricalDistribution
.consider_magic_clip (bool) – Enable a heuristic to limit the smallest variances of Gaussians used in the Parzen estimator.
consider_endpoints (bool) – Take endpoints of domains into account when calculating variances of Gaussians in Parzen estimator. See the original paper for details on the heuristics to calculate the variances.
n_startup_trials (int) – The random sampling is used instead of the TPE algorithm until the given number of trials finish in the same study.
n_ei_candidates (int) – Number of candidate samples used to calculate the expected improvement.
gamma (Callable[[int], int]) – A function that takes the number of finished trials and returns the number of trials to form a density function for samples with low grains. See the original paper for more details.
weights (Callable[[int], ndarray]) –
A function that takes the number of finished trials and returns a weight for them. See Making a Science of Model Search: Hyperparameter Optimization in Hundreds of Dimensions for Vision Architectures for more details.
Note
In the multi-objective case, this argument is only used to compute the weights of bad trials, i.e., trials to construct g(x) in the paper ). The weights of good trials, i.e., trials to construct l(x), are computed by a rule based on the hypervolume contribution proposed in the paper of MOTPE.
multivariate (bool) –
If this is
True
, the multivariate TPE is used when suggesting parameters. The multivariate TPE is reported to outperform the independent TPE. See BOHB: Robust and Efficient Hyperparameter Optimization at Scale for more details.Note
Added in v2.2.0 as an experimental feature. The interface may change in newer versions without prior notice. See https://github.com/optuna/optuna/releases/tag/v2.2.0.
group (bool) –
If this and
multivariate
areTrue
, the multivariate TPE with the group decomposed search space is used when suggesting parameters. The sampling algorithm decomposes the search space based on past trials and samples from the joint distribution in each decomposed subspace. The decomposed subspaces are a partition of the whole search space. Each subspace is a maximal subset of the whole search space, which satisfies the following: for a trial in completed trials, the intersection of the subspace and the search space of the trial becomes subspace itself or an empty set. Sampling from the joint distribution on the subspace is realized by multivariate TPE. Ifgroup
isTrue
,multivariate
must beTrue
as well.Note
Added in v2.8.0 as an experimental feature. The interface may change in newer versions without prior notice. See https://github.com/optuna/optuna/releases/tag/v2.8.0.
Example:
import optuna def objective(trial): x = trial.suggest_categorical("x", ["A", "B"]) if x == "A": return trial.suggest_float("y", -10, 10) else: return trial.suggest_int("z", -10, 10) sampler = optuna.samplers.TPESampler(multivariate=True, group=True) study = optuna.create_study(sampler=sampler) study.optimize(objective, n_trials=10)
warn_independent_sampling (bool) – If this is
True
andmultivariate=True
, a warning message is emitted when the value of a parameter is sampled by using an independent sampler. Ifmultivariate=False
, this flag has no effect.constant_liar (bool) –
If
True
, penalize running trials to avoid suggesting parameter configurations nearby.Note
Abnormally terminated trials often leave behind a record with a state of
RUNNING
in the storage. Such “zombie” trial parameters will be avoided by the constant liar algorithm during subsequent sampling. When using anRDBStorage
, it is possible to enable theheartbeat_interval
to change the records for abnormally terminated trials toFAIL
.Note
It is recommended to set this value to
True
during distributed optimization to avoid having multiple workers evaluating similar parameter configurations. In particular, if each objective function evaluation is costly and the durations of the running states are significant, and/or the number of workers is high.Note
This feature can be used for only single-objective optimization; this argument is ignored for multi-objective optimization.
Note
Added in v2.8.0 as an experimental feature. The interface may change in newer versions without prior notice. See https://github.com/optuna/optuna/releases/tag/v2.8.0.
constraints_func (Optional[Callable[[FrozenTrial], Sequence[float]]]) –
An optional function that computes the objective constraints. It must take a
FrozenTrial
and return the constraints. The return value must be a sequence offloat
s. A value strictly larger than 0 means that a constraints is violated. A value equal to or smaller than 0 is considered feasible. Ifconstraints_func
returns more than one value for a trial, that trial is considered feasible if and only if all values are equal to 0 or smaller.The
constraints_func
will be evaluated after each successful trial. The function won’t be called when trials fail or they are pruned, but this behavior is subject to change in the future releases.Note
Added in v3.0.0 as an experimental feature. The interface may change in newer versions without prior notice. See https://github.com/optuna/optuna/releases/tag/v3.0.0.
Methods
after_trial
(study, trial, state, values)Trial post-processing.
Return the the default parameters of hyperopt (v0.1.2).
infer_relative_search_space
(study, trial)Infer the search space that will be used by relative sampling in the target trial.
Reseed sampler's random number generator.
sample_independent
(study, trial, param_name, ...)Sample a parameter for a given distribution.
sample_relative
(study, trial, search_space)Sample parameters in a given search space.
- after_trial(study, trial, state, values)[source]
Trial post-processing.
This method is called after the objective function returns and right before the trials is finished and its state is stored.
Note
Added in v2.4.0 as an experimental feature. The interface may change in newer versions without prior notice. See https://github.com/optuna/optuna/releases/tag/v2.4.0.
- Parameters
study (Study) – Target study object.
trial (FrozenTrial) – Target trial object. Take a copy before modifying this object.
state (TrialState) – Resulting trial state.
values (Optional[Sequence[float]]) – Resulting trial values. Guaranteed to not be
None
if trial succeeded.
- Return type
None
- 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_float("x", -10, 10) return x**2 sampler = TPESampler(**TPESampler.hyperopt_parameters()) study = optuna.create_study(sampler=sampler) study.optimize(objective, n_trials=10)
- 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 passed to it. The parameters not contained in the search space will be sampled by usingsample_independent()
method.- Parameters
study (Study) – Target study object.
trial (FrozenTrial) – Target trial object. Take a copy before modifying this object.
- Returns
A dictionary containing the parameter names and parameter’s distributions.
- Return type
See also
Please refer to
intersection_search_space()
as an implementation ofinfer_relative_search_space()
.
- reseed_rng()[source]
Reseed sampler’s random number generator.
This method is called by the
Study
instance if trials are executed in parallel with the optionn_jobs>1
. In that case, the sampler instance will be replicated including the state of the random number generator, and they may suggest the same values. To prevent this issue, this method assigns a different seed to each random number generator.- Return type
None
- 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.Note
The failed trials are ignored by any build-in samplers when they sample new parameters. Thus, failed trials are regarded as deleted in the samplers’ perspective.
- Parameters
study (Study) – Target study object.
trial (FrozenTrial) – Target trial object. Take a copy before modifying this object.
param_name (str) – Name of the sampled parameter.
param_distribution (BaseDistribution) – Distribution object that specifies a prior and/or scale of the sampling algorithm.
- Returns
A parameter value.
- Return type
- 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 CMA-ES.
Note
The failed trials are ignored by any build-in samplers when they sample new parameters. Thus, failed trials are regarded as deleted in the samplers’ perspective.
- Parameters
study (Study) – Target study object.
trial (FrozenTrial) – Target trial object. Take a copy before modifying this object.
search_space (Dict[str, BaseDistribution]) – The search space returned by
infer_relative_search_space()
.
- Returns
A dictionary containing the parameter names and the values.
- Return type