def get_graph_manager(hp_dict, agent_list, run_phase_subject):
####################
# All Default Parameters #
####################
params = {}
params["batch_size"] = int(hp_dict.get("batch_size", 64))
params["num_epochs"] = int(hp_dict.get("num_epochs", 10))
params["stack_size"] = int(hp_dict.get("stack_size", 1))
params["lr"] = float(hp_dict.get("lr", 0.0003))
params["exploration_type"] = (hp_dict.get("exploration_type",
"categorical")).lower()
params["e_greedy_value"] = float(hp_dict.get("e_greedy_value", .05))
params["epsilon_steps"] = int(hp_dict.get("epsilon_steps", 10000))
params["beta_entropy"] = float(hp_dict.get("beta_entropy", .01))
params["discount_factor"] = float(hp_dict.get("discount_factor", .999))
params["loss_type"] = hp_dict.get("loss_type",
"Mean squared error").lower()
params["num_episodes_between_training"] = int(
hp_dict.get("num_episodes_between_training", 20))
params["term_cond_max_episodes"] = int(
hp_dict.get("term_cond_max_episodes", 100000))
params["term_cond_avg_score"] = float(
hp_dict.get("term_cond_avg_score", 100000))
params_json = json.dumps(params, indent=2, sort_keys=True)
print("Using the following hyper-parameters", params_json, sep='\n')
####################
# Graph Scheduling #
####################
schedule_params = ScheduleParameters()
schedule_params.improve_steps = TrainingSteps(
params["term_cond_max_episodes"])
schedule_params.steps_between_evaluation_periods = EnvironmentEpisodes(40)
schedule_params.evaluation_steps = EnvironmentEpisodes(5)
schedule_params.heatup_steps = EnvironmentSteps(0)
#########
# Agent #
#########
trainable_agents_list = list()
non_trainable_agents_list = list()
for agent in agent_list:
agent_params = DeepRacerAgentParams()
if agent.network_settings:
agent_params.env_agent = agent
agent_params.network_wrappers['main'].learning_rate = params["lr"]
agent_params.network_wrappers['main'].input_embedders_parameters = \
create_input_embedder(agent.network_settings['input_embedders'],
agent.network_settings['embedder_type'],
agent.network_settings['activation_function'])
agent_params.network_wrappers['main'].middleware_parameters = \
create_middle_embedder(agent.network_settings['middleware_embedders'],
agent.network_settings['embedder_type'],
agent.network_settings['activation_function'])
input_filter = InputFilter(is_a_reference_filter=True)
for observation in agent.network_settings['input_embedders'].keys(
):
if observation == Input.LEFT_CAMERA.value or observation == Input.CAMERA.value or\
observation == Input.OBSERVATION.value:
input_filter.add_observation_filter(
observation, 'to_grayscale', ObservationRGBToYFilter())
input_filter.add_observation_filter(
observation, 'to_uint8',
ObservationToUInt8Filter(0, 255))
input_filter.add_observation_filter(
observation, 'stacking', ObservationStackingFilter(1))
if observation == Input.STEREO.value:
input_filter.add_observation_filter(
observation, 'to_uint8',
ObservationToUInt8Filter(0, 255))
if observation == Input.LIDAR.value:
input_filter.add_observation_filter(
observation, 'clipping',
ObservationClippingFilter(0.15, 1.0))
if observation == Input.SECTOR_LIDAR.value:
input_filter.add_observation_filter(
observation, 'binary', ObservationBinarySectorFilter())
agent_params.input_filter = input_filter()
agent_params.network_wrappers['main'].batch_size = params[
"batch_size"]
agent_params.network_wrappers['main'].optimizer_epsilon = 1e-5
agent_params.network_wrappers['main'].adam_optimizer_beta2 = 0.999
if params["loss_type"] == "huber":
agent_params.network_wrappers[
'main'].replace_mse_with_huber_loss = True
agent_params.algorithm.clip_likelihood_ratio_using_epsilon = 0.2
agent_params.algorithm.clipping_decay_schedule = LinearSchedule(
1.0, 0, 1000000)
agent_params.algorithm.beta_entropy = params["beta_entropy"]
agent_params.algorithm.gae_lambda = 0.95
agent_params.algorithm.discount = params["discount_factor"]
agent_params.algorithm.optimization_epochs = params["num_epochs"]
agent_params.algorithm.estimate_state_value_using_gae = True
agent_params.algorithm.num_steps_between_copying_online_weights_to_target = \
EnvironmentEpisodes(params["num_episodes_between_training"])
agent_params.algorithm.num_consecutive_playing_steps = \
EnvironmentEpisodes(params["num_episodes_between_training"])
agent_params.algorithm.distributed_coach_synchronization_type = \
DistributedCoachSynchronizationType.SYNC
if params["exploration_type"] == "categorical":
agent_params.exploration = CategoricalParameters()
else:
agent_params.exploration = EGreedyParameters()
agent_params.exploration.epsilon_schedule = LinearSchedule(
1.0, params["e_greedy_value"], params["epsilon_steps"])
trainable_agents_list.append(agent_params)
else:
non_trainable_agents_list.append(agent)
###############
# Environment #
###############
env_params = DeepRacerRacetrackEnvParameters()
env_params.agents_params = trainable_agents_list
env_params.non_trainable_agents = non_trainable_agents_list
env_params.level = 'DeepRacerRacetrackEnv-v0'
env_params.run_phase_subject = run_phase_subject
vis_params = VisualizationParameters()
vis_params.dump_mp4 = False
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 10000
graph_manager = MultiAgentGraphManager(
agents_params=trainable_agents_list,
env_params=env_params,
schedule_params=schedule_params,
vis_params=vis_params,
preset_validation_params=preset_validation_params)
return graph_manager, params_json
###############
SilverstoneInputFilter = InputFilter(is_a_reference_filter=True)
SilverstoneInputFilter.add_observation_filter('observation', 'to_grayscale',
ObservationRGBToYFilter())
SilverstoneInputFilter.add_observation_filter('observation', 'to_uint8',
ObservationToUInt8Filter(0, 255))
SilverstoneInputFilter.add_observation_filter('observation', 'stacking',
ObservationStackingFilter(1))
env_params = GymVectorEnvironment()
env_params.default_input_filter = SilverstoneInputFilter
env_params.level = 'DeepRacerRacetrackCustomActionSpaceEnv-v0'
vis_params = VisualizationParameters()
vis_params.dump_mp4 = False
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 1000
graph_manager = BasicRLGraphManager(
agent_params=agent_params,
env_params=env_params,
schedule_params=schedule_params,
vis_params=vis_params,
preset_validation_params=preset_validation_params)
def get_graph_manager(**hp_dict):
####################
# All Default Parameters #
####################
params = {}
params["batch_size"] = int(hp_dict.get("batch_size", 64))
params["num_epochs"] = int(hp_dict.get("num_epochs", 10))
params["stack_size"] = int(hp_dict.get("stack_size", 1))
params["lr"] = float(hp_dict.get("lr", 0.0003))
params["exploration_type"] = (hp_dict.get("exploration_type",
"huber")).lower()
params["e_greedy_value"] = float(hp_dict.get("e_greedy_value", .05))
params["epsilon_steps"] = int(hp_dict.get("epsilon_steps", 10000))
params["beta_entropy"] = float(hp_dict.get("beta_entropy", .01))
params["discount_factor"] = float(hp_dict.get("discount_factor", .999))
params["loss_type"] = hp_dict.get("loss_type",
"Mean squared error").lower()
params["num_episodes_between_training"] = int(
hp_dict.get("num_episodes_between_training", 20))
params["term_cond_max_episodes"] = int(
hp_dict.get("term_cond_max_episodes", 100000))
params["term_cond_avg_score"] = float(
hp_dict.get("term_cond_avg_score", 100000))
params_json = json.dumps(params, indent=2, sort_keys=True)
print("Using the following hyper-parameters", params_json, sep='\n')
####################
# Graph Scheduling #
####################
schedule_params = ScheduleParameters()
schedule_params.improve_steps = TrainingSteps(
params["term_cond_max_episodes"])
schedule_params.steps_between_evaluation_periods = EnvironmentEpisodes(40)
schedule_params.evaluation_steps = EnvironmentEpisodes(5)
schedule_params.heatup_steps = EnvironmentSteps(0)
#########
# Agent #
#########
agent_params = ClippedPPOAgentParameters()
agent_params.network_wrappers['main'].learning_rate = params["lr"]
agent_params.network_wrappers['main'].input_embedders_parameters[
'observation'].activation_function = 'relu'
agent_params.network_wrappers[
'main'].middleware_parameters.activation_function = 'relu'
agent_params.network_wrappers['main'].batch_size = params["batch_size"]
agent_params.network_wrappers['main'].optimizer_epsilon = 1e-5
agent_params.network_wrappers['main'].adam_optimizer_beta2 = 0.999
if params["loss_type"] == "huber":
agent_params.network_wrappers[
'main'].replace_mse_with_huber_loss = True
agent_params.algorithm.clip_likelihood_ratio_using_epsilon = 0.2
agent_params.algorithm.clipping_decay_schedule = LinearSchedule(
1.0, 0, 1000000)
agent_params.algorithm.beta_entropy = params["beta_entropy"]
agent_params.algorithm.gae_lambda = 0.95
agent_params.algorithm.discount = params["discount_factor"]
agent_params.algorithm.optimization_epochs = params["num_epochs"]
agent_params.algorithm.estimate_state_value_using_gae = True
agent_params.algorithm.num_steps_between_copying_online_weights_to_target = EnvironmentEpisodes(
params["num_episodes_between_training"])
agent_params.algorithm.num_consecutive_playing_steps = EnvironmentEpisodes(
params["num_episodes_between_training"])
agent_params.algorithm.distributed_coach_synchronization_type = DistributedCoachSynchronizationType.SYNC
if params["exploration_type"] == "categorical":
agent_params.exploration = CategoricalParameters()
else:
agent_params.exploration = EGreedyParameters()
agent_params.exploration.epsilon_schedule = LinearSchedule(
1.0, params["e_greedy_value"], params["epsilon_steps"])
###############
# Environment #
###############
SilverstoneInputFilter = InputFilter(is_a_reference_filter=True)
SilverstoneInputFilter.add_observation_filter('observation',
'to_grayscale',
ObservationRGBToYFilter())
SilverstoneInputFilter.add_observation_filter(
'observation', 'to_uint8', ObservationToUInt8Filter(0, 255))
SilverstoneInputFilter.add_observation_filter(
'observation', 'stacking',
ObservationStackingFilter(params["stack_size"]))
env_params = GymVectorEnvironment()
env_params.default_input_filter = SilverstoneInputFilter
env_params.level = 'SilverstoneRacetrack-Discrete-v0'
vis_params = VisualizationParameters()
vis_params.dump_mp4 = False
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 1000
graph_manager = BasicRLGraphManager(
agent_params=agent_params,
env_params=env_params,
schedule_params=schedule_params,
vis_params=vis_params,
preset_validation_params=preset_validation_params)
return graph_manager, params_json
agent_params = ActorCriticAgentParameters()
agent_params.algorithm.apply_gradients_every_x_episodes = 1
agent_params.algorithm.num_steps_between_gradient_updates = 20
agent_params.algorithm.beta_entropy = 0.05
agent_params.network_wrappers['main'].learning_rate = 0.0001
agent_params.network_wrappers['main'].middleware_parameters = LSTMMiddlewareParameters(scheme=MiddlewareScheme.Medium,
number_of_lstm_cells=256)
agent_params.exploration = CategoricalParameters()
###############
# Environment #
###############
env_params = Atari()
env_params.level = SingleLevelSelection(atari_deterministic_v4)
vis_params = VisualizationParameters()
vis_params.video_dump_methods = [SelectedPhaseOnlyDumpMethod(RunPhase.TEST), MaxDumpMethod()]
vis_params.dump_mp4 = True
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.trace_test_levels = ['breakout', 'pong', 'space_invaders']
graph_manager = BasicRLGraphManager(agent_params=agent_params, env_params=env_params,
schedule_params=schedule_params, vis_params=vis_params,
preset_validation_params=preset_validation_params)
agent_params.algorithm.num_steps_between_copying_online_weights_to_target = EnvironmentEpisodes(20)
agent_params.algorithm.num_consecutive_playing_steps = EnvironmentEpisodes(20)
agent_params.exploration = CategoricalParameters()
###############
# Environment #
###############
turtlebot3_input_filter = InputFilter(is_a_reference_filter=True)
turtlebot3_input_filter.add_observation_filter('observation', 'to_grayscale', ObservationRGBToYFilter())
turtlebot3_input_filter.add_observation_filter('observation', 'to_uint8', ObservationToUInt8Filter(0, 255))
turtlebot3_input_filter.add_observation_filter('observation', 'stacking', ObservationStackingFilter(1))
env_params = GymVectorEnvironment()
env_params.default_input_filter = turtlebot3_input_filter
env_params.level = 'SageMaker-TurtleBot3-Discrete-v0'
vis_params = VisualizationParameters()
vis_params.dump_mp4 = False
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 1000
graph_manager = BasicRLGraphManager(agent_params=agent_params, env_params=env_params,
schedule_params=schedule_params, vis_params=vis_params,
preset_validation_params=preset_validation_params)
def get_graph_manager(**hp_dict):
####################
# All Default Parameters #
####################
params = {}
params["batch_size"] = int(hp_dict.get("batch_size", 64))
params["num_epochs"] = int(hp_dict.get("num_epochs", 10))
params["stack_size"] = int(hp_dict.get("stack_size", 1))
params["lr"] = float(hp_dict.get("lr", 0.0003))
params["exploration_type"] = (hp_dict.get("exploration_type", "huber")).lower()
params["e_greedy_value"] = float(hp_dict.get("e_greedy_value", .05))
params["epsilon_steps"] = int(hp_dict.get("epsilon_steps", 10000))
params["beta_entropy"] = float(hp_dict.get("beta_entropy", .01))
params["discount_factor"] = float(hp_dict.get("discount_factor", .999))
params["loss_type"] = hp_dict.get("loss_type", "Mean squared error").lower()
params["num_episodes_between_training"] = int(hp_dict.get("num_episodes_between_training", 20))
params["term_cond_max_episodes"] = int(hp_dict.get("term_cond_max_episodes", 100000))
params["term_cond_avg_score"] = float(hp_dict.get("term_cond_avg_score", 100000))
params_json = json.dumps(params, indent=2, sort_keys=True)
print("Using the following hyper-parameters", params_json, sep='\n')
####################
# Graph Scheduling #
####################
schedule_params = ScheduleParameters()
schedule_params.improve_steps = TrainingSteps(params["term_cond_max_episodes"])
schedule_params.steps_between_evaluation_periods = EnvironmentEpisodes(40)
schedule_params.evaluation_steps = EnvironmentEpisodes(5)
schedule_params.heatup_steps = EnvironmentSteps(0)
#########
# Agent #
#########
agent_params = ClippedPPOAgentParameters()
agent_params.network_wrappers['main'].learning_rate = params["lr"]
agent_params.network_wrappers['main'].input_embedders_parameters['observation'].activation_function = 'relu'
agent_params.network_wrappers['main'].middleware_parameters.activation_function = 'relu'
agent_params.network_wrappers['main'].batch_size = params["batch_size"]
agent_params.network_wrappers['main'].optimizer_epsilon = 1e-5
agent_params.network_wrappers['main'].adam_optimizer_beta2 = 0.999
if params["loss_type"] == "huber":
agent_params.network_wrappers['main'].replace_mse_with_huber_loss = True
agent_params.algorithm.clip_likelihood_ratio_using_epsilon = 0.2
agent_params.algorithm.clipping_decay_schedule = LinearSchedule(1.0, 0, 1000000)
agent_params.algorithm.beta_entropy = params["beta_entropy"]
agent_params.algorithm.gae_lambda = 0.95
agent_params.algorithm.discount = params["discount_factor"]
agent_params.algorithm.optimization_epochs = params["num_epochs"]
agent_params.algorithm.estimate_state_value_using_gae = True
agent_params.algorithm.num_steps_between_copying_online_weights_to_target = EnvironmentEpisodes(
params["num_episodes_between_training"])
agent_params.algorithm.num_consecutive_playing_steps = EnvironmentEpisodes(params["num_episodes_between_training"])
agent_params.algorithm.distributed_coach_synchronization_type = DistributedCoachSynchronizationType.SYNC
if params["exploration_type"] == "categorical":
agent_params.exploration = CategoricalParameters()
else:
agent_params.exploration = EGreedyParameters()
agent_params.exploration.epsilon_schedule = LinearSchedule(1.0,
params["e_greedy_value"],
params["epsilon_steps"])
###############
# Environment #
###############
SilverstoneInputFilter = InputFilter(is_a_reference_filter=True)
SilverstoneInputFilter.add_observation_filter('observation', 'to_grayscale', ObservationRGBToYFilter())
SilverstoneInputFilter.add_observation_filter('observation', 'to_uint8', ObservationToUInt8Filter(0, 255))
SilverstoneInputFilter.add_observation_filter('observation', 'stacking',
ObservationStackingFilter(params["stack_size"]))
env_params = GymVectorEnvironment()
env_params.default_input_filter = SilverstoneInputFilter
env_params.level = 'SilverstoneRacetrack-Discrete-v0'
vis_params = VisualizationParameters()
vis_params.dump_mp4 = False
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 1000
graph_manager = BasicRLGraphManager(agent_params=agent_params, env_params=env_params,
schedule_params=schedule_params, vis_params=vis_params,
preset_validation_params=preset_validation_params)
return graph_manager, params_json
def get_graph_manager(**hp_dict):
####################
# All Default Parameters #
####################
params = {}
params["batch_size"] = int(hp_dict.get("batch_size", 64))
params["num_epochs"] = int(hp_dict.get("num_epochs", 10))
params["stack_size"] = int(hp_dict.get("stack_size", 1))
params["lr"] = float(hp_dict.get("lr", 0.0003))
params["lr_decay_rate"] = float(hp_dict.get("lr_decay_rate", 0))
params["lr_decay_steps"] = float(hp_dict.get("lr_decay_steps", 0))
params["exploration_type"] = (hp_dict.get("exploration_type", "categorical")).lower()
params["e_greedy_value"] = float(hp_dict.get("e_greedy_value", .05))
params["epsilon_steps"] = int(hp_dict.get("epsilon_steps", 10000))
params["beta_entropy"] = float(hp_dict.get("beta_entropy", .01))
params["discount_factor"] = float(hp_dict.get("discount_factor", .999))
params["loss_type"] = hp_dict.get("loss_type", "Mean squared error").lower()
params["num_episodes_between_training"] = int(hp_dict.get("num_episodes_between_training", 20))
params["term_cond_max_episodes"] = int(hp_dict.get("term_cond_max_episodes", 100000))
params["term_cond_avg_score"] = float(hp_dict.get("term_cond_avg_score", 100000))
params["tensorboard"] = hp_dict.get("tensorboard", False)
params["dump_mp4"] = hp_dict.get("dump_mp4", False)
params["dump_gifs"] = hp_dict.get("dump_gifs", False)
params_json = json.dumps(params, indent=2, sort_keys=True)
print("Using the following hyper-parameters", params_json, sep='\n')
####################
# Graph Scheduling #
####################
schedule_params = ScheduleParameters()
schedule_params.improve_steps = TrainingSteps(params["term_cond_max_episodes"])
schedule_params.steps_between_evaluation_periods = EnvironmentEpisodes(40)
schedule_params.evaluation_steps = EnvironmentEpisodes(5)
schedule_params.heatup_steps = EnvironmentSteps(0)
#########
# Agent #
#########
agent_params = ClippedPPOAgentParameters()
agent_params.network_wrappers['main'].learning_rate = params["lr"]
agent_params.network_wrappers['main'].learning_rate_decay_rate = params["lr_decay_rate"]
agent_params.network_wrappers['main'].learning_rate_decay_steps = params["lr_decay_steps"]
agent_params.network_wrappers['main'].input_embedders_parameters['observation'].activation_function = 'relu'
# Replace the default CNN with single layer Conv2d(32, 3, 1)
# agent_params.network_wrappers['main'].input_embedders_parameters['observation'].scheme = EmbedderScheme.Shallow
# agent_params.network_wrappers['main'].input_embedders_parameters['observation'].dropout_rate = 0.3
agent_params.network_wrappers['main'].middleware_parameters.activation_function = 'relu'
# agent_params.network_wrappers['main'].middleware_parameters.scheme = MiddlewareScheme.Shallow
# agent_params.network_wrappers['main'].middleware_parameters.dropout_rate = 0.3
agent_params.network_wrappers['main'].batch_size = params["batch_size"]
agent_params.network_wrappers['main'].optimizer_epsilon = 1e-5
agent_params.network_wrappers['main'].adam_optimizer_beta2 = 0.999
# agent_params.network_wrappers['main'].l2_regularization = 2e-5
if params["loss_type"] == "huber":
agent_params.network_wrappers['main'].replace_mse_with_huber_loss = True
agent_params.algorithm.clip_likelihood_ratio_using_epsilon = 0.2
agent_params.algorithm.clipping_decay_schedule = LinearSchedule(1.0, 0, 1000000)
agent_params.algorithm.beta_entropy = params["beta_entropy"]
agent_params.algorithm.gae_lambda = 0.95
agent_params.algorithm.discount = params["discount_factor"]
agent_params.algorithm.optimization_epochs = params["num_epochs"]
agent_params.algorithm.estimate_state_value_using_gae = True
agent_params.algorithm.num_steps_between_copying_online_weights_to_target = EnvironmentEpisodes(
params["num_episodes_between_training"])
agent_params.algorithm.num_consecutive_playing_steps = EnvironmentEpisodes(params["num_episodes_between_training"])
agent_params.algorithm.distributed_coach_synchronization_type = DistributedCoachSynchronizationType.SYNC
if params["exploration_type"] == "categorical":
agent_params.exploration = CategoricalParameters()
else:
agent_params.exploration = EGreedyParameters()
agent_params.exploration.epsilon_schedule = LinearSchedule(1.0,
params["e_greedy_value"],
params["epsilon_steps"])
###############
# Environment #
###############
DeepRacerInputFilter = InputFilter(is_a_reference_filter=True)
# Add an observation image pertubation for many aspects
# DeepRacerInputFilter.add_observation_filter('observation', 'perturb_color', ObservationColorPerturbation(0.2))
# Rescale to much smaller input when using shallow networks to avoid OOM
# DeepRacerInputFilter.add_observation_filter('observation', 'rescaling',
# ObservationRescaleToSizeFilter(ImageObservationSpace(np.array([84, 84, 3]),
# high=255)))
DeepRacerInputFilter.add_observation_filter('observation', 'to_grayscale', ObservationRGBToYFilter())
DeepRacerInputFilter.add_observation_filter('observation', 'to_uint8', ObservationToUInt8Filter(0, 255))
DeepRacerInputFilter.add_observation_filter('observation', 'stacking',
ObservationStackingFilter(params["stack_size"]))
env_params = GymVectorEnvironment()
env_params.default_input_filter = DeepRacerInputFilter
env_params.level = 'DeepRacerRacetrackCustomActionSpaceEnv-v0'
vis_params = VisualizationParameters()
vis_params.tensorboard = params["tensorboard"]
vis_params.dump_mp4 = params["dump_mp4"]
vis_params.dump_gifs = params["dump_gifs"]
# AlwaysDumpFilter, MaxDumpFilter, EveryNEpisodesDumpFilter, SelectedPhaseOnlyDumpFilter
vis_params.video_dump_filters = [AlwaysDumpFilter()]
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 10000
graph_manager = BasicRLGraphManager(agent_params=agent_params, env_params=env_params,
schedule_params=schedule_params, vis_params=vis_params,
preset_validation_params=preset_validation_params)
return graph_manager, params_json
def get_graph_manager(hp_dict,
agent_list,
run_phase_subject,
enable_domain_randomization=False,
done_condition=any,
run_type=str(RunType.ROLLOUT_WORKER),
pause_physics=None,
unpause_physics=None):
####################
# Hyperparameters #
####################
training_algorithm = agent_list[
0].ctrl.model_metadata.training_algorithm if agent_list else None
params = get_updated_hyper_parameters(hp_dict, training_algorithm)
params_json = json.dumps(params, indent=2, sort_keys=True)
print("Using the following hyper-parameters", params_json, sep='\n')
####################
# Graph Scheduling #
####################
schedule_params = ScheduleParameters()
schedule_params.improve_steps = TrainingSteps(
params[HyperParameterKeys.TERMINATION_CONDITION_MAX_EPISODES.value])
schedule_params.steps_between_evaluation_periods = EnvironmentEpisodes(40)
schedule_params.evaluation_steps = EnvironmentEpisodes(5)
schedule_params.heatup_steps = EnvironmentSteps(0)
#########
# Agent #
#########
trainable_agents_list = list()
non_trainable_agents_list = list()
for agent in agent_list:
if agent.network_settings:
if TrainingAlgorithm.SAC.value == training_algorithm:
agent_params = get_sac_params(DeepRacerSACAgentParams(), agent,
params, run_type)
else:
agent_params = get_clipped_ppo_params(
DeepRacerClippedPPOAgentParams(), agent, params)
agent_params.env_agent = agent
input_filter = InputFilter(is_a_reference_filter=True)
for observation in agent.network_settings['input_embedders'].keys(
):
if observation == Input.LEFT_CAMERA.value or observation == Input.CAMERA.value or\
observation == Input.OBSERVATION.value:
input_filter.add_observation_filter(
observation, 'to_grayscale', ObservationRGBToYFilter())
input_filter.add_observation_filter(
observation, 'to_uint8',
ObservationToUInt8Filter(0, 255))
input_filter.add_observation_filter(
observation, 'stacking', ObservationStackingFilter(1))
if observation == Input.STEREO.value:
input_filter.add_observation_filter(
observation, 'to_uint8',
ObservationToUInt8Filter(0, 255))
if observation == Input.LIDAR.value:
input_filter.add_observation_filter(
observation, 'clipping',
ObservationClippingFilter(0.15, 1.0))
if observation == Input.SECTOR_LIDAR.value:
input_filter.add_observation_filter(
observation, 'binary', ObservationBinarySectorFilter())
agent_params.input_filter = input_filter()
trainable_agents_list.append(agent_params)
else:
non_trainable_agents_list.append(agent)
###############
# Environment #
###############
env_params = DeepRacerRacetrackEnvParameters()
env_params.agents_params = trainable_agents_list
env_params.non_trainable_agents = non_trainable_agents_list
env_params.level = 'DeepRacerRacetrackEnv-v0'
env_params.run_phase_subject = run_phase_subject
env_params.enable_domain_randomization = enable_domain_randomization
env_params.done_condition = done_condition
env_params.pause_physics = pause_physics
env_params.unpause_physics = unpause_physics
vis_params = VisualizationParameters()
vis_params.dump_mp4 = False
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 10000
graph_manager = MultiAgentGraphManager(
agents_params=trainable_agents_list,
env_params=env_params,
schedule_params=schedule_params,
vis_params=vis_params,
preset_validation_params=preset_validation_params,
done_condition=done_condition)
return graph_manager, params_json
def get_graph_manager(hp_dict,
agent_list,
run_phase_subject,
enable_domain_randomization=False,
done_condition=any,
run_type=str(RunType.ROLLOUT_WORKER),
pause_physics=None,
unpause_physics=None):
####################
# Hyperparameters #
####################
# Note: The following three line hard-coded to pick the first agent's trainig algorithm
# and dump the hyper parameters for the particular training algorithm into json
# for training jobs (so that the console display the training hyperparameters correctly)
# since right now, we only support training one model at a time.
# TODO: clean these lines up when we support multi-agent training.
training_algorithm = agent_list[
0].ctrl.model_metadata.training_algorithm if agent_list else None
params = get_updated_hyper_parameters(hp_dict, training_algorithm)
params_json = json.dumps(params, indent=2, sort_keys=True)
print("Using the following hyper-parameters", params_json, sep='\n')
####################
# Graph Scheduling #
####################
schedule_params = ScheduleParameters()
schedule_params.improve_steps = TrainingSteps(
params[HyperParameterKeys.TERMINATION_CONDITION_MAX_EPISODES.value])
schedule_params.steps_between_evaluation_periods = EnvironmentEpisodes(40)
schedule_params.evaluation_steps = EnvironmentEpisodes(5)
schedule_params.heatup_steps = EnvironmentSteps(0)
#########
# Agent #
#########
trainable_agents_list = list()
non_trainable_agents_list = list()
for agent in agent_list:
if agent.network_settings:
training_algorithm = agent.ctrl.model_metadata.training_algorithm
params = get_updated_hyper_parameters(hp_dict, training_algorithm)
if TrainingAlgorithm.SAC.value == training_algorithm:
agent_params = get_sac_params(DeepRacerSACAgentParams(), agent,
params, run_type)
else:
agent_params = get_clipped_ppo_params(
DeepRacerClippedPPOAgentParams(), agent, params)
agent_params.env_agent = agent
input_filter = InputFilter(is_a_reference_filter=True)
for observation in agent.network_settings['input_embedders'].keys(
):
if observation == Input.LEFT_CAMERA.value or observation == Input.CAMERA.value or \
observation == Input.OBSERVATION.value:
input_filter.add_observation_filter(
observation, 'to_grayscale', ObservationRGBToYFilter())
input_filter.add_observation_filter(
observation, 'to_uint8',
ObservationToUInt8Filter(0, 255))
input_filter.add_observation_filter(
observation, 'stacking', ObservationStackingFilter(1))
if observation == Input.STEREO.value:
input_filter.add_observation_filter(
observation, 'to_uint8',
ObservationToUInt8Filter(0, 255))
if observation == Input.LIDAR.value:
input_filter.add_observation_filter(
observation, 'clipping',
ObservationClippingFilter(0.15, 1.0))
if observation == Input.SECTOR_LIDAR.value:
sector_binary_filter = ObservationSectorDiscretizeFilter(
num_sectors=NUMBER_OF_LIDAR_SECTORS,
num_values_per_sector=1,
clipping_dist=SECTOR_LIDAR_CLIPPING_DIST)
input_filter.add_observation_filter(
observation, 'binary', sector_binary_filter)
if observation == Input.DISCRETIZED_SECTOR_LIDAR.value:
num_sectors = agent.ctrl.model_metadata.lidar_num_sectors
num_values_per_sector = agent.ctrl.model_metadata.lidar_num_values_per_sector
clipping_dist = agent.ctrl.model_metadata.lidar_clipping_dist
sector_discretize_filter = ObservationSectorDiscretizeFilter(
num_sectors=num_sectors,
num_values_per_sector=num_values_per_sector,
clipping_dist=clipping_dist)
input_filter.add_observation_filter(
observation, 'discrete', sector_discretize_filter)
agent_params.input_filter = input_filter()
trainable_agents_list.append(agent_params)
else:
non_trainable_agents_list.append(agent)
###############
# Environment #
###############
env_params = DeepRacerRacetrackEnvParameters()
env_params.agents_params = trainable_agents_list
env_params.non_trainable_agents = non_trainable_agents_list
env_params.level = 'DeepRacerRacetrackEnv-v0'
env_params.run_phase_subject = run_phase_subject
env_params.enable_domain_randomization = enable_domain_randomization
env_params.done_condition = done_condition
env_params.pause_physics = pause_physics
env_params.unpause_physics = unpause_physics
vis_params = VisualizationParameters()
vis_params.dump_mp4 = False
########
# Test #
########
preset_validation_params = PresetValidationParameters()
preset_validation_params.test = True
preset_validation_params.min_reward_threshold = 400
preset_validation_params.max_episodes_to_achieve_reward = 10000
graph_manager = MultiAgentGraphManager(
agents_params=trainable_agents_list,
env_params=env_params,
schedule_params=schedule_params,
vis_params=vis_params,
preset_validation_params=preset_validation_params,
done_condition=done_condition)
return graph_manager, params_json
