metacontroller-pytorch 0.1.30

Transformer Metacontroller

metacontroller

Implementation of the MetaController proposed in Emergent temporal abstractions in autoregressive models enable hierarchical reinforcement learning, from the Paradigms of Intelligence team at Google

Install

$ pip install metacontroller-pytorch

Appreciation

• Pranoy for submitting a pull request for fixing the previous latent action not being included in the inputs to the switching unit

• Diego Calanzone for proposing testing on BabyAI gridworld task, and submitting the pull request for behavior cloning and discovery phase training for it!

• Andrew Song for ongoing implementation of the PinPad environment!

• Diego Calanzone for his experimental acumen, bringing the project to an initial working state for the BabyAI environment!

• Andrew Song for implementing linear probing and fixing an issue with the action space

• Andrew Song for identifying a critical issue with past action embed handling and detaching gradients of target states

• Diego Calanzone for identifying inconsistencies in the MetaController

Usage

import torch
from metacontroller import Transformer, MetaController

# 1. initialize model

model = Transformer(
    dim = 512,
    action_embed_readout = dict(num_discrete = 4),
    state_embed_readout = dict(num_continuous = 384),
    lower_body = dict(depth = 2),
    upper_body = dict(depth = 2)
)

state = torch.randn(2, 128, 384)
actions = torch.randint(0, 4, (2, 128))

# 2. behavioral cloning (BC)

state_loss, action_loss = model(state, actions)
(state_loss + action_loss).backward()

# 3. discovery phase

meta_controller = MetaController(
    dim_model = 512,
    dim_meta_controller = 256,
    dim_latent = 128
)

state_pred_loss, action_recon_loss, kl_loss, aux_ratio_loss = model(
    state,
    actions,
    meta_controller = meta_controller,
    discovery_phase = True
)

# they did not use state pred loss in the paper (weight set to 0, but available)
# the ratio loss from h-net paper is also available, but optional (set ratio_loss_weight > 0)

(action_recon_loss + kl_loss * 0.1).backward()

# 4. internal rl phase (GRPO)

# ... collect trajectories ...

logits, cache = model(
    one_state,
    past_action_id,
    meta_controller = meta_controller,
    return_cache = True
)

meta_output = cache.prev_hiddens.meta_controller
old_log_probs = meta_controller.log_prob(meta_output.action_dist, meta_output.actions)

# ... calculate advantages ...

# for GRPO, the inputs to policy loss should be of shape (batch, seq, dim_latent)
# where dim_latent is the dimension of the latent action space

loss = meta_controller.policy_loss(
    group_states,
    group_old_log_probs,
    group_latent_actions,
    group_advantages,
    group_switch_betas
)

loss.backward()

Or using evolutionary strategies for the last portion

# 5. evolve (ES over GRPO)

model.meta_controller = meta_controller

def environment_callable(model):
    # return a fitness score
    return 1.0

model.evolve(
    num_generations = 10,
    environment = environment_callable
)

Citations

@misc{kobayashi2025emergenttemporalabstractionsautoregressive,
    title   = {Emergent temporal abstractions in autoregressive models enable hierarchical reinforcement learning}, 
    author  = {Seijin Kobayashi and Yanick Schimpf and Maximilian Schlegel and Angelika Steger and Maciej Wolczyk and Johannes von Oswald and Nino Scherrer and Kaitlin Maile and Guillaume Lajoie and Blake A. Richards and Rif A. Saurous and James Manyika and Blaise Agüera y Arcas and Alexander Meulemans and João Sacramento},
    year    = {2025},
    eprint  = {2512.20605},
    archivePrefix = {arXiv},
    primaryClass = {cs.LG},
    url     = {https://arxiv.org/abs/2512.20605}, 
}

@article{Wagenmaker2025SteeringYD,
    title   = {Steering Your Diffusion Policy with Latent Space Reinforcement Learning},
    author  = {Andrew Wagenmaker and Mitsuhiko Nakamoto and Yunchu Zhang and Seohong Park and Waleed Yagoub and Anusha Nagabandi and Abhishek Gupta and Sergey Levine},
    journal = {ArXiv},
    year    = {2025},
    volume  = {abs/2506.15799},
    url     = {https://api.semanticscholar.org/CorpusID:279464702}
}

@misc{hwang2025dynamicchunkingendtoendhierarchical,
    title   = {Dynamic Chunking for End-to-End Hierarchical Sequence Modeling},
    author  = {Sukjun Hwang and Brandon Wang and Albert Gu},
    year    = {2025},
    eprint  = {2507.07955},
    archivePrefix = {arXiv},
    primaryClass = {cs.LG},
    url     = {https://arxiv.org/abs/2507.07955},
}

@misc{fleuret2025freetransformer,
    title     = {The Free Transformer}, 
    author    = {François Fleuret},
    year      = {2025},
    eprint    = {2510.17558},
    archivePrefix = {arXiv},
    primaryClass = {cs.LG},
    url       = {https://arxiv.org/abs/2510.17558}, 
}

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