| mlr_tuners_gensa {mlr3tuning} | R Documentation |
Hyperparameter Tuning with Generalized Simulated Annealing
Description
Subclass for generalized simulated annealing tuning.
Calls GenSA::GenSA() from package GenSA.
Details
In contrast to the GenSA::GenSA() defaults, we set smooth = FALSE as a default.
Dictionary
This Tuner can be instantiated with the associated sugar function tnr():
tnr("gensa")
Parallelization
In order to support general termination criteria and parallelization, we
evaluate points in a batch-fashion of size batch_size. Larger batches mean
we can parallelize more, smaller batches imply a more fine-grained checking
of termination criteria. A batch contains of batch_size times resampling$iters jobs.
E.g., if you set a batch size of 10 points and do a 5-fold cross validation, you can
utilize up to 50 cores.
Parallelization is supported via package future (see mlr3::benchmark()'s
section on parallelization for more details).
Logging
All Tuners use a logger (as implemented in lgr) from package
bbotk.
Use lgr::get_logger("bbotk") to access and control the logger.
Optimizer
This Tuner is based on bbotk::OptimizerGenSA which can be applied on any black box optimization problem. See also the documentation of bbotk.
Parameters
smoothlogical(1)temperaturenumeric(1)acceptance.paramnumeric(1)verboselogical(1)trace.matlogical(1)
For the meaning of the control parameters, see GenSA::GenSA(). Note that we
have removed all control parameters which refer to the termination of the
algorithm and where our terminators allow to obtain the same behavior.
In contrast to the GenSA::GenSA() defaults, we set trace.mat = FALSE.
Note that GenSA::GenSA() uses smooth = TRUE as a default.
In the case of using this optimizer for Hyperparameter Optimization you may
want to set smooth = FALSE.
Resources
There are several sections about hyperparameter optimization in the mlr3book.
Learn more about tuners.
The gallery features a collection of case studies and demos about optimization.
Use the Hyperband optimizer with different budget parameters.
Progress Bars
$optimize() supports progress bars via the package progressr
combined with a Terminator. Simply wrap the function in
progressr::with_progress() to enable them. We recommend to use package
progress as backend; enable with progressr::handlers("progress").
Super classes
mlr3tuning::Tuner -> mlr3tuning::TunerFromOptimizer -> TunerGenSA
Methods
Public methods
Inherited methods
Method new()
Creates a new instance of this R6 class.
Usage
TunerGenSA$new()
Method clone()
The objects of this class are cloneable with this method.
Usage
TunerGenSA$clone(deep = FALSE)
Arguments
deepWhether to make a deep clone.
Source
Tsallis C, Stariolo DA (1996). “Generalized simulated annealing.” Physica A: Statistical Mechanics and its Applications, 233(1-2), 395–406. doi:10.1016/s0378-4371(96)00271-3.
Xiang Y, Gubian S, Suomela B, Hoeng J (2013). “Generalized Simulated Annealing for Global Optimization: The GenSA Package.” The R Journal, 5(1), 13. doi:10.32614/rj-2013-002.
See Also
Other Tuner:
mlr_tuners,
mlr_tuners_cmaes,
mlr_tuners_design_points,
mlr_tuners_grid_search,
mlr_tuners_irace,
mlr_tuners_nloptr,
mlr_tuners_random_search
Examples
# Hyperparameter Optimization
# load learner and set search space
learner = lrn("classif.rpart",
cp = to_tune(1e-04, 1e-1, logscale = TRUE)
)
# run hyperparameter tuning on the Palmer Penguins data set
instance = tune(
tuner = tnr("gensa"),
task = tsk("penguins"),
learner = learner,
resampling = rsmp("holdout"),
measure = msr("classif.ce"),
term_evals = 10
)
# best performing hyperparameter configuration
instance$result
# all evaluated hyperparameter configuration
as.data.table(instance$archive)
# fit final model on complete data set
learner$param_set$values = instance$result_learner_param_vals
learner$train(tsk("penguins"))