Source code for ax.telemetry.experiment

# Copyright (c) Meta Platforms, Inc. and affiliates.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.

# pyre-strict

from __future__ import annotations

from dataclasses import dataclass
from math import inf
from typing import Dict, List, Optional, Tuple

from ax.core.base_trial import TrialStatus

from ax.core.experiment import Experiment
from ax.core.map_metric import MapMetric
from ax.core.parameter import (
    ChoiceParameter,
    FixedParameter,
    ParameterType,
    RangeParameter,
)
from ax.core.search_space import HierarchicalSearchSpace, SearchSpace
from ax.core.utils import get_model_times
from ax.telemetry.common import INITIALIZATION_MODELS, OTHER_MODELS

INITIALIZATION_MODEL_STRS: List[str] = [enum.value for enum in INITIALIZATION_MODELS]
OTHER_MODEL_STRS: List[str] = [enum.value for enum in OTHER_MODELS]


[docs]@dataclass(frozen=True) class ExperimentCreatedRecord: """ Record of the Experiment creation event. This can be used for telemetry in settings where many Experiments are being created either manually or programatically. In order to facilitate easy serialization only include simple types: numbers, strings, bools, and None. """ experiment_name: Optional[str] experiment_type: Optional[str] # SearchSpace info num_continuous_range_parameters: int # Note: ordered ChoiceParameters and int RangeParameters should both utilize the # following fields num_int_range_parameters_small: int # 2 - 3 elements num_int_range_parameters_medium: int # 4 - 7 elements num_int_range_parameters_large: int # 8 or more elements # Any RangeParameter can specify log space sampling num_log_scale_range_parameters: int num_unordered_choice_parameters_small: int # 2 - 3 elements num_unordered_choice_parameters_medium: int # 4 - 7 elements num_unordered_choice_parameters_large: int # 8 or more elements num_fixed_parameters: int dimensionality: int hierarchical_tree_height: int # Height of tree for HSS, 1 for base SearchSpace num_parameter_constraints: int # OptimizationConfig info num_objectives: int num_tracking_metrics: int num_outcome_constraints: int # Includes ObjectiveThresholds in MOO # General Metrics info num_map_metrics: int metric_cls_to_quantity: Dict[str, int] # Runner info runner_cls: str
[docs] @classmethod def from_experiment(cls, experiment: Experiment) -> ExperimentCreatedRecord: ( num_continuous_range_parameters, num_int_range_parameters_small, num_int_range_parameters_medium, num_int_range_parameters_large, num_log_scale_range_parameters, num_unordered_choice_parameters_small, num_unordered_choice_parameters_medium, num_unordered_choice_parameters_large, num_fixed_parameters, ) = cls._get_param_counts_from_search_space( search_space=experiment.search_space ) return cls( experiment_name=experiment._name, experiment_type=experiment._experiment_type, num_continuous_range_parameters=num_continuous_range_parameters, num_int_range_parameters_small=num_int_range_parameters_small, num_int_range_parameters_medium=num_int_range_parameters_medium, num_int_range_parameters_large=num_int_range_parameters_large, num_log_scale_range_parameters=num_log_scale_range_parameters, num_unordered_choice_parameters_small=num_unordered_choice_parameters_small, num_unordered_choice_parameters_medium=( num_unordered_choice_parameters_medium ), num_unordered_choice_parameters_large=num_unordered_choice_parameters_large, num_fixed_parameters=num_fixed_parameters, dimensionality=sum( 1 for param in experiment.parameters.values() if param.cardinality() > 1 ), hierarchical_tree_height=( experiment.search_space.height if isinstance(experiment.search_space, HierarchicalSearchSpace) else 1 ), num_parameter_constraints=len( experiment.search_space.parameter_constraints ), num_objectives=( len(experiment.optimization_config.objective.metrics) if experiment.optimization_config is not None else 0 ), num_tracking_metrics=len(experiment.tracking_metrics), num_outcome_constraints=( len(experiment.optimization_config.outcome_constraints) if experiment.optimization_config is not None else 0 ), num_map_metrics=sum( 1 for metric in experiment.metrics.values() if isinstance(metric, MapMetric) ), metric_cls_to_quantity={ cls_name: sum( 1 for metric in experiment.metrics.values() if metric.__class__.__name__ == cls_name ) for cls_name in { metric.__class__.__name__ for metric in experiment.metrics.values() } }, runner_cls=experiment.runner.__class__.__name__, )
@staticmethod def _get_param_counts_from_search_space( search_space: SearchSpace, ) -> Tuple[int, int, int, int, int, int, int, int, int]: """ Return counts of different types of parameters. returns: num_continuous_range_parameters num_int_range_parameters_small num_int_range_parameters_medium num_int_range_parameters_large num_log_scale_range_parameters num_unordered_choice_parameters_small num_unordered_choice_parameters_medium num_unordered_choice_parameters_large num_fixed_parameters """ num_continuous_range_parameters = sum( 1 for param in search_space.parameters.values() if isinstance(param, RangeParameter) and param.parameter_type == ParameterType.FLOAT ) num_int_range_parameters_small = sum( 1 for param in search_space.parameters.values() if ( isinstance(param, RangeParameter) or (isinstance(param, ChoiceParameter) and param.is_ordered) ) and (1.0 < param.cardinality() <= 3.0) ) num_int_range_parameters_medium = sum( 1 for param in search_space.parameters.values() if ( isinstance(param, RangeParameter) or (isinstance(param, ChoiceParameter) and param.is_ordered) ) and (3.0 < param.cardinality() <= 7.0) ) num_int_range_parameters_large = sum( 1 for param in search_space.parameters.values() if ( isinstance(param, RangeParameter) or (isinstance(param, ChoiceParameter) and param.is_ordered) ) and (7.0 < param.cardinality() < inf) ) num_log_scale_range_parameters = sum( 1 for param in search_space.parameters.values() if isinstance(param, RangeParameter) and param.log_scale ) num_unordered_choice_parameters_small = sum( 1 for param in search_space.parameters.values() if (isinstance(param, ChoiceParameter) and not param.is_ordered) and (1 < param.cardinality() <= 3) ) num_unordered_choice_parameters_medium = sum( 1 for param in search_space.parameters.values() if (isinstance(param, ChoiceParameter) and not param.is_ordered) and (3 < param.cardinality() <= 7) ) num_unordered_choice_parameters_large = sum( 1 for param in search_space.parameters.values() if (isinstance(param, ChoiceParameter) and not param.is_ordered) and param.cardinality() > 7 ) num_fixed_parameters = sum( 1 for param in search_space.parameters.values() if isinstance(param, FixedParameter) ) return ( num_continuous_range_parameters, num_int_range_parameters_small, num_int_range_parameters_medium, num_int_range_parameters_large, num_log_scale_range_parameters, num_unordered_choice_parameters_small, num_unordered_choice_parameters_medium, num_unordered_choice_parameters_large, num_fixed_parameters, )
[docs]@dataclass(frozen=True) class ExperimentCompletedRecord: """ Record of the Experiment completion event. This can be used for telemetry in settings where many Experiments are being created either manually or programatically. In order to facilitate easy serialization only include simple types: numbers, strings, bools, and None. """ num_initialization_trials: int num_bayesopt_trials: int num_other_trials: int num_completed_trials: int num_failed_trials: int num_abandoned_trials: int num_early_stopped_trials: int total_fit_time: int total_gen_time: int
[docs] @classmethod def from_experiment(cls, experiment: Experiment) -> ExperimentCompletedRecord: trial_count_by_status = { status: len(trials) for status, trials in experiment.trials_by_status.items() } model_keys = [ trial.generator_runs[0]._model_key for trial in experiment.trials.values() ] fit_time, gen_time = get_model_times(experiment=experiment) return cls( num_initialization_trials=sum( 1 for model_key in model_keys if model_key in INITIALIZATION_MODEL_STRS ), num_bayesopt_trials=sum( 1 for model_key in model_keys if not ( model_key in INITIALIZATION_MODEL_STRS or model_key in OTHER_MODEL_STRS ) ), num_other_trials=sum( 1 for model_key in model_keys if model_key in OTHER_MODEL_STRS ), num_completed_trials=trial_count_by_status[TrialStatus.COMPLETED], num_failed_trials=trial_count_by_status[TrialStatus.FAILED], num_abandoned_trials=trial_count_by_status[TrialStatus.ABANDONED], num_early_stopped_trials=trial_count_by_status[TrialStatus.EARLY_STOPPED], total_fit_time=int(fit_time), total_gen_time=int(gen_time), )