Trust Region Policy Optimization for RL2.
RL2TRPO(meta_batch_size, task_sampler, env_spec, policy, baseline, episodes_per_trial, scope=None, discount=0.99, gae_lambda=0.98, center_adv=True, positive_adv=False, fixed_horizon=False, lr_clip_range=0.01, max_kl_step=0.01, optimizer=None, optimizer_args=None, policy_ent_coeff=0.0, use_softplus_entropy=False, use_neg_logli_entropy=False, stop_entropy_gradient=False, kl_constraint='hard', entropy_method='no_entropy', meta_evaluator=None, n_epochs_per_eval=10, name='TRPO')¶
Trust Region Policy Optimization specific for RL^2.
meta_batch_size (int) – Meta batch size.
task_sampler (TaskSampler) – Task sampler.
env_spec (EnvSpec) – Environment specification.
policy (garage.tf.policies.StochasticPolicy) – Policy.
baseline (garage.tf.baselines.Baseline) – The baseline.
scope (str) – Scope for identifying the algorithm. Must be specified if running multiple algorithms simultaneously, each using different environments and policies.
episodes_per_trial (int) – Used to calculate the max episode length for the inner algorithm.
discount (float) – Discount.
gae_lambda (float) – Lambda used for generalized advantage estimation.
center_adv (bool) – Whether to rescale the advantages so that they have mean 0 and standard deviation 1.
positive_adv (bool) – Whether to shift the advantages so that they are always positive. When used in conjunction with center_adv the advantages will be standardized before shifting.
fixed_horizon (bool) – Whether to fix horizon.
lr_clip_range (float) – The limit on the likelihood ratio between policies, as in PPO.
max_kl_step (float) – The maximum KL divergence between old and new policies, as in TRPO.
optimizer (object) – The optimizer of the algorithm. Should be the optimizers in garage.tf.optimizers.
optimizer_args (dict) – The arguments of the optimizer.
policy_ent_coeff (float) – The coefficient of the policy entropy. Setting it to zero would mean no entropy regularization.
use_softplus_entropy (bool) – Whether to estimate the softmax distribution of the entropy to prevent the entropy from being negative.
use_neg_logli_entropy (bool) – Whether to estimate the entropy as the negative log likelihood of the action.
stop_entropy_gradient (bool) – Whether to stop the entropy gradient.
kl_constraint (str) – KL constraint, either ‘hard’ or ‘soft’.
entropy_method (str) – A string from: ‘max’, ‘regularized’, ‘no_entropy’. The type of entropy method to use. ‘max’ adds the dense entropy to the reward for each time step. ‘regularized’ adds the mean entropy to the surrogate objective. See https://arxiv.org/abs/1805.00909 for more details.
meta_evaluator (MetaEvaluator) – Evaluator for meta-RL algorithms.
n_epochs_per_eval (int) – If meta_evaluator is passed, meta-evaluation will be performed every n_epochs_per_eval epochs.
name (str) – The name of the algorithm.
Obtain samplers and start actual training for each epoch.
train_once(self, itr, episodes)¶
Perform one step of policy optimization given one batch of samples.
Return a policy used before adaptation to a specific task.
Each time it is retrieved, this policy should only be evaluated in one task.
- The policy used to obtain samples that are later used for
- Return type
adapt_policy(self, exploration_policy, exploration_episodes)¶
Produce a policy adapted for a task.
exploration_policy (Policy) – A policy which was returned from get_exploration_policy(), and which generated exploration_episodes by interacting with an environment. The caller may not use this object after passing it into this method.
exploration_episodes (EpisodeBatch) – episodes to adapt to, generated by exploration_policy exploring the environment.
- A policy adapted to the task represented by the
- Return type
Policy: Policy to be used.
int: Maximum length of an episode.