def get_sarsa_parameters_factorized(self):
return ContinuousActionModelParameters(
rl=RLParameters(
gamma=DISCOUNT,
target_update_rate=1.0,
reward_burnin=100,
maxq_learning=False,
),
training=TrainingParameters(
# These are used by reward network
layers=[-1, 256, 128, -1],
activations=["relu", "relu", "linear"],
factorization_parameters=FactorizationParameters(
state=FeedForwardParameters(
layers=[-1, 128, 64, 32],
activations=["relu", "relu", "linear"]),
action=FeedForwardParameters(
layers=[-1, 128, 64, 32],
activations=["relu", "relu", "linear"]),
),
minibatch_size=self.minibatch_size,
learning_rate=0.05,
optimizer="ADAM",
),
knn=KnnParameters(model_type="DQN"),
rainbow=RainbowDQNParameters(double_q_learning=True,
dueling_architecture=False),
in_training_cpe=InTrainingCPEParameters(mdp_sampled_rate=0.1),
)
def get_sarsa_parameters_factorized(self):
return ContinuousActionModelParameters(
rl=RLParameters(
gamma=DISCOUNT,
target_update_rate=1.0,
reward_burnin=100,
maxq_learning=False,
),
training=TrainingParameters(
layers=[],
activations=[],
factorization_parameters=FactorizationParameters(
state=FeedForwardParameters(
layers=[-1, 128, 64, 32],
activations=["relu", "relu", "linear"]),
action=FeedForwardParameters(
layers=[-1, 128, 64, 32],
activations=["relu", "relu", "linear"]),
),
minibatch_size=self.minibatch_size,
learning_rate=0.05,
optimizer="ADAM",
),
knn=KnnParameters(model_type="DQN"),
in_training_cpe_evaluation=InTrainingCPEParameters(
mdp_sampled_rate=0.1),
)
def get_sarsa_parameters(self):
return ContinuousActionModelParameters(
rl=RLParameters(
gamma=DISCOUNT,
target_update_rate=0.5,
reward_burnin=10,
maxq_learning=False,
),
training=TrainingParameters(
layers=[-1, 200, 1],
activations=['linear', 'linear'],
minibatch_size=1024,
learning_rate=0.01,
optimizer='ADAM',
),
knn=KnnParameters(model_type='DQN', ))
def get_sarsa_parameters(self):
return ContinuousActionModelParameters(
rl=RLParameters(
gamma=DISCOUNT,
target_update_rate=1.0,
reward_burnin=100,
maxq_learning=False,
),
training=TrainingParameters(
layers=[-1, 256, 128, -1],
activations=["relu", "relu", "linear"],
minibatch_size=self.minibatch_size,
learning_rate=0.1,
optimizer="ADAM",
),
knn=KnnParameters(model_type="DQN"),
)
def setUp(self):
super(self.__class__, self).setUp()
np.random.seed(0)
random.seed(0)
self.state_dim, self.action_dim = 2, 3
self._env = MockEnv(self.state_dim, self.action_dim)
self._rl_parameters = RLParameters(
gamma=0.9,
target_update_rate=0.5,
reward_burnin=10,
maxq_learning=False,
)
self._rl_parameters_maxq = RLParameters(
gamma=0.9,
target_update_rate=0.5,
reward_burnin=10,
maxq_learning=True,
)
self._rl_parameters = ContinuousActionModelParameters(
rl=self._rl_parameters,
training=TrainingParameters(
layers=[
-1, self._env.num_states * self._env.num_actions * 2, 1
],
activations=['linear', 'linear'],
minibatch_size=1024,
learning_rate=0.01,
optimizer='ADAM',
),
knn=KnnParameters(model_type='DQN', ))
self._trainer = ContinuousActionDQNTrainer(
self._env.normalization, self._env.normalization_action,
self._rl_parameters)
def run_gym(params, score_bar, gpu_id, save_timesteps_to_dataset=None):
logger.info("Running gym with params")
logger.info(params)
rl_parameters = RLParameters(**params["rl"])
env_type = params["env"]
env = OpenAIGymEnvironment(
env_type,
rl_parameters.epsilon,
rl_parameters.softmax_policy,
params["max_replay_memory_size"],
)
model_type = params["model_type"]
c2_device = core.DeviceOption(
caffe2_pb2.CPU if gpu_id == USE_CPU else caffe2_pb2.CUDA, gpu_id
)
if model_type == ModelType.DISCRETE_ACTION.value:
with core.DeviceScope(c2_device):
training_settings = params["training"]
training_parameters = TrainingParameters(**training_settings)
if env.img:
assert (
training_parameters.cnn_parameters is not None
), "Missing CNN parameters for image input"
training_parameters.cnn_parameters = CNNParameters(
**training_settings["cnn_parameters"]
)
training_parameters.cnn_parameters.conv_dims[0] = env.num_input_channels
training_parameters.cnn_parameters.input_height = env.height
training_parameters.cnn_parameters.input_width = env.width
training_parameters.cnn_parameters.num_input_channels = (
env.num_input_channels
)
else:
assert (
training_parameters.cnn_parameters is None
), "Extra CNN parameters for non-image input"
trainer_params = DiscreteActionModelParameters(
actions=env.actions, rl=rl_parameters, training=training_parameters
)
trainer = DiscreteActionTrainer(trainer_params, env.normalization)
elif model_type == ModelType.PARAMETRIC_ACTION.value:
with core.DeviceScope(c2_device):
training_settings = params["training"]
training_parameters = TrainingParameters(**training_settings)
if env.img:
assert (
training_parameters.cnn_parameters is not None
), "Missing CNN parameters for image input"
training_parameters.cnn_parameters = CNNParameters(
**training_settings["cnn_parameters"]
)
training_parameters.cnn_parameters.conv_dims[0] = env.num_input_channels
else:
assert (
training_parameters.cnn_parameters is None
), "Extra CNN parameters for non-image input"
trainer_params = ContinuousActionModelParameters(
rl=rl_parameters,
training=training_parameters,
knn=KnnParameters(model_type="DQN"),
)
trainer = ContinuousActionDQNTrainer(
trainer_params, env.normalization, env.normalization_action
)
elif model_type == ModelType.CONTINUOUS_ACTION.value:
training_settings = params["shared_training"]
actor_settings = params["actor_training"]
critic_settings = params["critic_training"]
trainer_params = DDPGModelParameters(
rl=rl_parameters,
shared_training=DDPGTrainingParameters(**training_settings),
actor_training=DDPGNetworkParameters(**actor_settings),
critic_training=DDPGNetworkParameters(**critic_settings),
)
# DDPG can handle continuous and discrete action spaces
if env.action_type == EnvType.CONTINUOUS_ACTION:
action_range = env.action_space.high
else:
action_range = None
trainer = DDPGTrainer(
trainer_params,
env.normalization,
env.normalization_action,
use_gpu=False,
action_range=action_range,
)
else:
raise NotImplementedError("Model of type {} not supported".format(model_type))
return run(
c2_device,
env,
model_type,
trainer,
"{} test run".format(env_type),
score_bar,
**params["run_details"],
save_timesteps_to_dataset=save_timesteps_to_dataset,
)
def create_trainer(model_type, params, rl_parameters, use_gpu, env):
c2_device = core.DeviceOption(caffe2_pb2.CUDA if use_gpu else caffe2_pb2.CPU)
if model_type == ModelType.PYTORCH_DISCRETE_DQN.value:
training_parameters = params["training"]
if isinstance(training_parameters, dict):
training_parameters = TrainingParameters(**training_parameters)
rainbow_parameters = params["rainbow"]
if isinstance(rainbow_parameters, dict):
rainbow_parameters = RainbowDQNParameters(**rainbow_parameters)
if env.img:
assert (
training_parameters.cnn_parameters is not None
), "Missing CNN parameters for image input"
training_parameters.cnn_parameters.conv_dims[0] = env.num_input_channels
training_parameters.cnn_parameters.input_height = env.height
training_parameters.cnn_parameters.input_width = env.width
training_parameters.cnn_parameters.num_input_channels = (
env.num_input_channels
)
else:
assert (
training_parameters.cnn_parameters is None
), "Extra CNN parameters for non-image input"
trainer_params = DiscreteActionModelParameters(
actions=env.actions,
rl=rl_parameters,
training=training_parameters,
rainbow=rainbow_parameters,
)
trainer = DQNTrainer(trainer_params, env.normalization, use_gpu)
elif model_type == ModelType.DISCRETE_ACTION.value:
with core.DeviceScope(c2_device):
training_parameters = params["training"]
if isinstance(training_parameters, dict):
training_parameters = TrainingParameters(**training_parameters)
if env.img:
assert (
training_parameters.cnn_parameters is not None
), "Missing CNN parameters for image input"
training_parameters.cnn_parameters.conv_dims[0] = env.num_input_channels
training_parameters.cnn_parameters.input_height = env.height
training_parameters.cnn_parameters.input_width = env.width
training_parameters.cnn_parameters.num_input_channels = (
env.num_input_channels
)
else:
assert (
training_parameters.cnn_parameters is None
), "Extra CNN parameters for non-image input"
trainer_params = DiscreteActionModelParameters(
actions=env.actions, rl=rl_parameters, training=training_parameters
)
trainer = DiscreteActionTrainer(trainer_params, env.normalization)
elif model_type == ModelType.PYTORCH_PARAMETRIC_DQN.value:
training_parameters = params["training"]
if isinstance(training_parameters, dict):
training_parameters = TrainingParameters(**training_parameters)
rainbow_parameters = params["rainbow"]
if isinstance(rainbow_parameters, dict):
rainbow_parameters = RainbowDQNParameters(**rainbow_parameters)
if env.img:
assert (
training_parameters.cnn_parameters is not None
), "Missing CNN parameters for image input"
training_parameters.cnn_parameters.conv_dims[0] = env.num_input_channels
else:
assert (
training_parameters.cnn_parameters is None
), "Extra CNN parameters for non-image input"
trainer_params = ContinuousActionModelParameters(
rl=rl_parameters,
training=training_parameters,
knn=KnnParameters(model_type="DQN"),
rainbow=rainbow_parameters,
)
trainer = ParametricDQNTrainer(
trainer_params, env.normalization, env.normalization_action, use_gpu
)
elif model_type == ModelType.PARAMETRIC_ACTION.value:
with core.DeviceScope(c2_device):
training_parameters = params["training"]
if isinstance(training_parameters, dict):
training_parameters = TrainingParameters(**training_parameters)
if env.img:
assert (
training_parameters.cnn_parameters is not None
), "Missing CNN parameters for image input"
training_parameters.cnn_parameters.conv_dims[0] = env.num_input_channels
else:
assert (
training_parameters.cnn_parameters is None
), "Extra CNN parameters for non-image input"
trainer_params = ContinuousActionModelParameters(
rl=rl_parameters,
training=training_parameters,
knn=KnnParameters(model_type="DQN"),
)
trainer = ContinuousActionDQNTrainer(
trainer_params, env.normalization, env.normalization_action
)
elif model_type == ModelType.CONTINUOUS_ACTION.value:
training_parameters = params["shared_training"]
if isinstance(training_parameters, dict):
training_parameters = DDPGTrainingParameters(**training_parameters)
actor_parameters = params["actor_training"]
if isinstance(actor_parameters, dict):
actor_parameters = DDPGNetworkParameters(**actor_parameters)
critic_parameters = params["critic_training"]
if isinstance(critic_parameters, dict):
critic_parameters = DDPGNetworkParameters(**critic_parameters)
trainer_params = DDPGModelParameters(
rl=rl_parameters,
shared_training=training_parameters,
actor_training=actor_parameters,
critic_training=critic_parameters,
)
action_range_low = env.action_space.low.astype(np.float32)
action_range_high = env.action_space.high.astype(np.float32)
trainer = DDPGTrainer(
trainer_params,
env.normalization,
env.normalization_action,
torch.from_numpy(action_range_low).unsqueeze(dim=0),
torch.from_numpy(action_range_high).unsqueeze(dim=0),
use_gpu,
)
else:
raise NotImplementedError("Model of type {} not supported".format(model_type))
return trainer
def run_gym(
params,
score_bar,
gpu_id,
save_timesteps_to_dataset=None,
start_saving_from_episode=0,
batch_rl_file_path=None,
):
# Caffe2 core uses the min of caffe2_log_level and minloglevel
# to determine loglevel. See caffe2/caffe2/core/logging.cc for more info.
core.GlobalInit(["caffe2", "--caffe2_log_level=2", "--minloglevel=2"])
logger.info("Running gym with params")
logger.info(params)
rl_parameters = RLParameters(**params["rl"])
env_type = params["env"]
env = OpenAIGymEnvironment(
env_type,
rl_parameters.epsilon,
rl_parameters.softmax_policy,
params["max_replay_memory_size"],
rl_parameters.gamma,
)
model_type = params["model_type"]
c2_device = core.DeviceOption(
caffe2_pb2.CPU if gpu_id == USE_CPU else caffe2_pb2.CUDA, gpu_id)
use_gpu = gpu_id != USE_CPU
if model_type == ModelType.PYTORCH_DISCRETE_DQN.value:
training_settings = params["training"]
training_parameters = TrainingParameters(**training_settings)
if env.img:
assert (training_parameters.cnn_parameters
is not None), "Missing CNN parameters for image input"
training_parameters.cnn_parameters = CNNParameters(
**training_settings["cnn_parameters"])
training_parameters.cnn_parameters.conv_dims[
0] = env.num_input_channels
training_parameters.cnn_parameters.input_height = env.height
training_parameters.cnn_parameters.input_width = env.width
training_parameters.cnn_parameters.num_input_channels = (
env.num_input_channels)
else:
assert (training_parameters.cnn_parameters is
None), "Extra CNN parameters for non-image input"
trainer_params = DiscreteActionModelParameters(
actions=env.actions,
rl=rl_parameters,
training=training_parameters)
trainer = DQNTrainer(trainer_params, env.normalization, use_gpu)
elif model_type == ModelType.DISCRETE_ACTION.value:
with core.DeviceScope(c2_device):
training_settings = params["training"]
training_parameters = TrainingParameters(**training_settings)
if env.img:
assert (training_parameters.cnn_parameters
is not None), "Missing CNN parameters for image input"
training_parameters.cnn_parameters = CNNParameters(
**training_settings["cnn_parameters"])
training_parameters.cnn_parameters.conv_dims[
0] = env.num_input_channels
training_parameters.cnn_parameters.input_height = env.height
training_parameters.cnn_parameters.input_width = env.width
training_parameters.cnn_parameters.num_input_channels = (
env.num_input_channels)
else:
assert (training_parameters.cnn_parameters is
None), "Extra CNN parameters for non-image input"
trainer_params = DiscreteActionModelParameters(
actions=env.actions,
rl=rl_parameters,
training=training_parameters)
trainer = DiscreteActionTrainer(trainer_params, env.normalization)
elif model_type == ModelType.PYTORCH_PARAMETRIC_DQN.value:
training_settings = params["training"]
training_parameters = TrainingParameters(**training_settings)
if env.img:
assert (training_parameters.cnn_parameters
is not None), "Missing CNN parameters for image input"
training_parameters.cnn_parameters = CNNParameters(
**training_settings["cnn_parameters"])
training_parameters.cnn_parameters.conv_dims[
0] = env.num_input_channels
else:
assert (training_parameters.cnn_parameters is
None), "Extra CNN parameters for non-image input"
trainer_params = ContinuousActionModelParameters(
rl=rl_parameters,
training=training_parameters,
knn=KnnParameters(model_type="DQN"),
)
trainer = ParametricDQNTrainer(trainer_params, env.normalization,
env.normalization_action, use_gpu)
elif model_type == ModelType.PARAMETRIC_ACTION.value:
with core.DeviceScope(c2_device):
training_settings = params["training"]
training_parameters = TrainingParameters(**training_settings)
if env.img:
assert (training_parameters.cnn_parameters
is not None), "Missing CNN parameters for image input"
training_parameters.cnn_parameters = CNNParameters(
**training_settings["cnn_parameters"])
training_parameters.cnn_parameters.conv_dims[
0] = env.num_input_channels
else:
assert (training_parameters.cnn_parameters is
None), "Extra CNN parameters for non-image input"
trainer_params = ContinuousActionModelParameters(
rl=rl_parameters,
training=training_parameters,
knn=KnnParameters(model_type="DQN"),
)
trainer = ContinuousActionDQNTrainer(trainer_params,
env.normalization,
env.normalization_action)
elif model_type == ModelType.CONTINUOUS_ACTION.value:
training_settings = params["shared_training"]
actor_settings = params["actor_training"]
critic_settings = params["critic_training"]
trainer_params = DDPGModelParameters(
rl=rl_parameters,
shared_training=DDPGTrainingParameters(**training_settings),
actor_training=DDPGNetworkParameters(**actor_settings),
critic_training=DDPGNetworkParameters(**critic_settings),
)
action_range_low = env.action_space.low.astype(np.float32)
action_range_high = env.action_space.high.astype(np.float32)
trainer = DDPGTrainer(
trainer_params,
env.normalization,
env.normalization_action,
torch.from_numpy(action_range_low).unsqueeze(dim=0),
torch.from_numpy(action_range_high).unsqueeze(dim=0),
use_gpu,
)
else:
raise NotImplementedError(
"Model of type {} not supported".format(model_type))
return run(
c2_device,
env,
model_type,
trainer,
"{} test run".format(env_type),
score_bar,
**params["run_details"],
save_timesteps_to_dataset=save_timesteps_to_dataset,
start_saving_from_episode=start_saving_from_episode,
batch_rl_file_path=batch_rl_file_path,
)
def run_gym(params, score_bar, gpu_id):
rl_settings = params['rl']
rl_settings['gamma'] = rl_settings['reward_discount_factor']
del rl_settings['reward_discount_factor']
env_type = params['env']
env = OpenAIGymEnvironment(env_type, rl_settings['epsilon'])
model_type = params['model_type']
c2_device = core.DeviceOption(
caffe2_pb2.CPU if gpu_id == USE_CPU else caffe2_pb2.CUDA,
gpu_id,
)
if model_type == ModelType.DISCRETE_ACTION.value:
with core.DeviceScope(c2_device):
training_settings = params['training']
training_settings['gamma'] = training_settings[
'learning_rate_decay']
del training_settings['learning_rate_decay']
trainer_params = DiscreteActionModelParameters(
actions=env.actions,
rl=RLParameters(**rl_settings),
training=TrainingParameters(**training_settings))
if env.img:
trainer = DiscreteActionConvTrainer(
DiscreteActionConvModelParameters(
fc_parameters=trainer_params,
cnn_parameters=CNNModelParameters(**params['cnn']),
num_input_channels=env.num_input_channels,
img_height=env.height,
img_width=env.width),
env.normalization,
)
else:
trainer = DiscreteActionTrainer(
trainer_params,
env.normalization,
)
elif model_type == ModelType.PARAMETRIC_ACTION.value:
with core.DeviceScope(c2_device):
training_settings = params['training']
training_settings['gamma'] = training_settings[
'learning_rate_decay']
del training_settings['learning_rate_decay']
trainer_params = ContinuousActionModelParameters(
rl=RLParameters(**rl_settings),
training=TrainingParameters(**training_settings),
knn=KnnParameters(model_type='DQN', ),
)
trainer = ContinuousActionDQNTrainer(trainer_params,
env.normalization,
env.normalization_action)
elif model_type == ModelType.CONTINUOUS_ACTION.value:
training_settings = params['shared_training']
training_settings['gamma'] = training_settings['learning_rate_decay']
del training_settings['learning_rate_decay']
actor_settings = params['actor_training']
critic_settings = params['critic_training']
trainer_params = DDPGModelParameters(
rl=DDPGRLParameters(**rl_settings),
shared_training=DDPGTrainingParameters(**training_settings),
actor_training=DDPGNetworkParameters(**actor_settings),
critic_training=DDPGNetworkParameters(**critic_settings),
)
trainer = DDPGTrainer(
trainer_params,
EnvDetails(
state_dim=env.state_dim,
action_dim=env.action_dim,
action_range=(env.action_space.low, env.action_space.high),
))
else:
raise NotImplementedError(
"Model of type {} not supported".format(model_type))
return run(env, model_type, trainer, "{} test run".format(env_type),
score_bar, **params["run_details"])
