# @OldAPIStack # __sphinx_doc_replay_buffer_api_example_script_begin__ """Simple example of how to modify replay buffer behaviour. We modify DQN to utilize prioritized replay but supplying it with the PrioritizedMultiAgentReplayBuffer instead of the standard MultiAgentReplayBuffer. This is possible because DQN uses the DQN training iteration function, which includes and a priority update, given that a fitting buffer is provided. """ import argparse import ray from ray import tune from ray.rllib.algorithms.dqn import DQNConfig from ray.rllib.utils.framework import try_import_tf from ray.rllib.utils.metrics import NUM_ENV_STEPS_SAMPLED_LIFETIME from ray.rllib.utils.replay_buffers.replay_buffer import StorageUnit from ray.tune.result import TRAINING_ITERATION tf1, tf, tfv = try_import_tf() parser = argparse.ArgumentParser() parser.add_argument("--num-cpus", type=int, default=0) parser.add_argument( "--framework", choices=["tf", "tf2", "torch"], default="torch", help="The DL framework specifier.", ) parser.add_argument( "--stop-iters", type=int, default=50, help="Number of iterations to train." ) parser.add_argument( "--stop-timesteps", type=int, default=100000, help="Number of timesteps to train." ) if __name__ == "__main__": args = parser.parse_args() ray.init(num_cpus=args.num_cpus or None) # This is where we add prioritized experiences replay # The training iteration function that is used by DQN already includes a priority # update step. replay_buffer_config = { "type": "MultiAgentPrioritizedReplayBuffer", # Although not necessary, we can modify the default constructor args of # the replay buffer here "prioritized_replay_alpha": 0.5, "storage_unit": StorageUnit.SEQUENCES, "replay_burn_in": 20, "zero_init_states": True, } config = ( DQNConfig() .environment("CartPole-v1") .framework(framework=args.framework) .env_runners(num_env_runners=4) .training( model=dict(use_lstm=True, lstm_cell_size=64, max_seq_len=20), replay_buffer_config=replay_buffer_config, ) ) stop_config = { NUM_ENV_STEPS_SAMPLED_LIFETIME: args.stop_timesteps, TRAINING_ITERATION: args.stop_iters, } results = tune.Tuner( config.algo_class, param_space=config, run_config=tune.RunConfig(stop=stop_config), ).fit() ray.shutdown() # __sphinx_doc_replay_buffer_api_example_script_end__