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Reinforcement learning library from Embark Studios

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EmbarkStudios/emote

🍒 emote

Embark's Modular Training Engine - a flexible framework for reinforcement learning

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🚧 This project is a work in progress. Things can and will change. 🚧

What it does

Emote provides a way to build reusable components for creating reinforcement learning algorithms, and a library of premade componenents built in this way. It is strongly inspired by the callback setup used by Keras and FastAI.

As an example, let us see how the SAC, the Soft Actor Critic algorithm by Haarnoja et al. can be written using Emote. The main algorithm in SAC is given in Soft Actor-Critic Algorithms and Applications and looks like this:

Main SAC algorithm

Using the components provided with Emote, we can write this as

device = torch.device("cpu")
env = DictGymWrapper(AsyncVectorEnv(10 * [HitTheMiddle]))
table = DictObsTable(spaces=env.dict_space, maxlen=1000, device=device)
memory_proxy = MemoryTableProxy(table)
dataloader = MemoryLoader(table, 100, 2, "batch_size")

q1 = QNet(2, 1)
q2 = QNet(2, 1)
policy = Policy(2, 1)
ln_alpha = torch.tensor(1.0, requires_grad=True)
agent_proxy = FeatureAgentProxy(policy, device)

callbacks = [
    QLoss(name="q1", q=q1, opt=Adam(q1.parameters(), lr=8e-3)),
    QLoss(name="q2", q=q2, opt=Adam(q2.parameters(), lr=8e-3)),
    PolicyLoss(pi=policy, ln_alpha=ln_alpha, q=q1, opt=Adam(policy.parameters())),
    AlphaLoss(pi=policy, ln_alpha=ln_alpha, opt=Adam([ln_alpha]), n_actions=1),
    QTarget(pi=policy, ln_alpha=ln_alpha, q1=q1, q2=q2),
    SimpleGymCollector(env, agent_proxy, memory_proxy, warmup_steps=500),
    FinalLossTestCheck([logged_cbs[2]], [10.0], 2000),
]

trainer = Trainer(callbacks, dataloader)
trainer.train()

Here each callback in the callbacks list is its own reusable class that can readily be used for other similar algorithms. The callback classes themselves are very straight forward to write. As an example, here is the PolicyLoss callback.

class PolicyLoss(LossCallback):
    def __init__(
        self,
        *,
        pi: nn.Module,
        ln_alpha: torch.tensor,
        q: nn.Module,
        opt: optim.Optimizer,
        max_grad_norm: float = 10.0,
        name: str = "policy",
        data_group: str = "default",
    ):
        super().__init__(
            name=name,
            optimizer=opt,
            network=pi,
            max_grad_norm=max_grad_norm,
            data_group=data_group,
        )
        self.policy = pi
        self._ln_alpha = ln_alpha
        self.q1 = q
        self.q2 = q2

    def loss(self, observation):
        p_sample, logp_pi = self.policy(**observation)
        q_pi_min = self.q1(p_sample, **observation)
        # using reparameterization trick
        alpha = torch.exp(self._ln_alpha).detach()
        policy_loss = alpha * logp_pi - q_pi_min
        policy_loss = torch.mean(policy_loss)
        assert policy_loss.dim() == 0
        return policy_loss

Installation

For package management and environment handling we use pants. Install it from pants. After pants is set up, verify that it is setup by running

pants tailor ::

Common problems

Box2d complains: Box2d needs swig and python bindings. On apt-based systems try

sudo apt install swig
sudo apt install python3.10-dev

Python 3.10 is tricky to install: For Ubuntu based distros try adding the deadsnakes PPA.

Contribution

Contributor Covenant

We welcome community contributions to this project.

Please read our Contributor Guide for more information on how to get started. Please also read our Contributor Terms before you make any contributions.

Any contribution intentionally submitted for inclusion in an Embark Studios project, shall comply with the Rust standard licensing model (MIT OR Apache 2.0) and therefore be dual licensed as described below, without any additional terms or conditions:

License

This contribution is dual licensed under EITHER OF

at your option.

For clarity, "your" refers to Embark or any other licensee/user of the contribution.