import gymnasium as gym import flax.linen as nn import jax import jax.numpy as jnp # import the skrl components to build the RL system from skrl import config from skrl.agents.jax.sac import SAC, SAC_DEFAULT_CONFIG from skrl.envs.wrappers.jax import wrap_env from skrl.memories.jax import RandomMemory from skrl.models.jax import DeterministicMixin, GaussianMixin, Model from skrl.trainers.jax import SequentialTrainer from skrl.utils import set_seed config.jax.backend = "numpy" # or "jax" # seed for reproducibility set_seed() # e.g. `set_seed(42)` for fixed seed # define models (stochastic and deterministic models) using mixins class Actor(GaussianMixin, Model): def __init__(self, observation_space, action_space, device=None, clip_actions=False, clip_log_std=True, min_log_std=-5, max_log_std=2, reduction="sum", **kwargs): Model.__init__(self, observation_space, action_space, device, **kwargs) GaussianMixin.__init__(self, clip_actions, clip_log_std, min_log_std, max_log_std, reduction) @nn.compact # marks the given module method allowing inlined submodules def __call__(self, inputs, role): x = nn.relu(nn.Dense(400)(inputs["states"])) x = nn.relu(nn.Dense(300)(x)) x = nn.Dense(self.num_actions)(x) log_std = self.param("log_std", lambda _: jnp.zeros(self.num_actions)) # Pendulum-v1 action_space is -2 to 2 return 2 * nn.tanh(x), log_std, {} class Critic(DeterministicMixin, Model): def __init__(self, observation_space, action_space, device=None, clip_actions=False, **kwargs): Model.__init__(self, observation_space, action_space, device, **kwargs) DeterministicMixin.__init__(self, clip_actions) @nn.compact # marks the given module method allowing inlined submodules def __call__(self, inputs, role): x = jnp.concatenate([inputs["states"], inputs["taken_actions"]], axis=-1) x = nn.relu(nn.Dense(400)(x)) x = nn.relu(nn.Dense(300)(x)) x = nn.Dense(1)(x) return x, {} # load and wrap the gymnasium environment. # note: the environment version may change depending on the gymnasium version try: env = gym.make("Pendulum-v1") except (gym.error.DeprecatedEnv, gym.error.VersionNotFound) as e: env_id = [spec for spec in gym.envs.registry if spec.startswith("Pendulum-v")][0] print("Pendulum-v1 not found. Trying {}".format(env_id)) env = gym.make(env_id) env = wrap_env(env) device = env.device # instantiate a memory as experience replay memory = RandomMemory(memory_size=20000, num_envs=env.num_envs, device=device, replacement=False) # instantiate the agent's models (function approximators). # SAC requires 5 models, visit its documentation for more details # https://skrl.readthedocs.io/en/latest/api/agents/sac.html#models models = {} models["policy"] = Actor(env.observation_space, env.action_space, device, clip_actions=True) models["critic_1"] = Critic(env.observation_space, env.action_space, device) models["critic_2"] = Critic(env.observation_space, env.action_space, device) models["target_critic_1"] = Critic(env.observation_space, env.action_space, device) models["target_critic_2"] = Critic(env.observation_space, env.action_space, device) # instantiate models' state dict for role, model in models.items(): model.init_state_dict(role) # initialize models' parameters (weights and biases) for model in models.values(): model.init_parameters(method_name="normal", stddev=0.1) # configure and instantiate the agent (visit its documentation to see all the options) # https://skrl.readthedocs.io/en/latest/api/agents/sac.html#configuration-and-hyperparameters cfg = SAC_DEFAULT_CONFIG.copy() cfg["discount_factor"] = 0.98 cfg["batch_size"] = 100 cfg["random_timesteps"] = 0 cfg["learning_starts"] = 1000 cfg["learn_entropy"] = True # logging to TensorBoard and write checkpoints (in timesteps) cfg["experiment"]["write_interval"] = 75 cfg["experiment"]["checkpoint_interval"] = 750 cfg["experiment"]["directory"] = "runs/jax/Pendulum" agent = SAC(models=models, memory=memory, cfg=cfg, observation_space=env.observation_space, action_space=env.action_space, device=device) # configure and instantiate the RL trainer cfg_trainer = {"timesteps": 15000, "headless": True} trainer = SequentialTrainer(cfg=cfg_trainer, env=env, agents=[agent]) # start training trainer.train()