GR00T training was dataloader-bound (0->100->0 GPU-utilization sawtooth).
GrootN17VLMEncodeStep ran the Qwen3-VL image processor per frame on PIL images
on the single CPU main-loop thread, and that cost is timed inside dataloading_s
(preprocessor(batch) runs in the main process, not the dataloader workers), so
adding workers cannot hide it.
- Feed the torchvision-backed Qwen3-VL processor (C,H,W) uint8 tensors instead
of a per-frame Image.fromarray PIL roundtrip, and run resize/normalize/patchify
on config.device (GPU) when available. Bit-identical on CPU when no resize is
configured; with a resize only the PIL->torchvision bicubic backend differs
(<2/255 per pixel). The use_albumentations path stays PIL/cv2; reload on a box
without the saved device falls back to CPU.
- Default image_target_size/crop to the N1.7 backbone's training geometry
(256x256 / 230x230) when a checkpoint ships no image sizing (checkpoint_assets
is None, e.g. finetuning nvidia/GR00T-N1.7-3B via repo-id with a new
embodiment). Previously image_target_size=None disabled the resize, so
full-resolution frames were patchified into ~4.7x more vision tokens than the
model was trained on -- inflating dataloading_s (patchify) and update_s (VLM
sequence) and skewing the input distribution. Checkpoints that pin their own
sizing are honored; the default constants are shared with GR00T_N1_7_DEFAULTS.
Net: preprocessing leaves the CPU critical path and the VLM sees the resolution
it was trained on -- faster training/inference and a correct train/serve
distribution. Affects inference too (shared preprocessor); existing checkpoints
still load (backward compatible) but must be retrained to gain the benefits.
The test loaded MODEL_PATH='aractingi/bimanual-handover-groot-10k', an N1.5
checkpoint (config base_model_path=nvidia/GR00T-N1.5-3B, no model_version). On
load, model_version defaults to n1.7 while the base path infers n1.5, so the
version-consistency guard in GrootConfig.__post_init__ raised ValueError and both
test_lerobot_groot_inference and test_lerobot_groot_forward_pass failed. N1.5 is no
longer a supported model_version.
Adopt the test for N1.7:
- MODEL_PATH -> nvidia/GR00T-N1.7-3B (root-level sharded safetensors; loads via
GrootPolicy.from_pretrained as a base N1.7 model).
- Embodiment tag 'gr1' (N1.5) -> 'gr1_unified' (valid N1.7 tag from the checkpoint
embodiment_id.json), via a single EMBODIMENT_TAG constant.
- DUMMY_ACTION_HORIZON 16 -> 40 to match N1.7's native action-chunk size.
- Docstrings/labels updated to 'GR00T N1.7'.
Both tests run and pass on CUDA; full tests/policies/groot/ suite is
73 passed / 0 failed / 0 skipped.
Mirror the tests/policies/pi0_pi05/utils convention: move dump_original_n1_7.py into
a tests/policies/groot/utils/ package (with __init__.py) and update all path
references in the test docstring/skip-message and the policy README.
- Rename test_groot_n1_7_vs_original.py -> test_groot_vs_original.py
- Make the test self-contained: producer script (dump_original_n1_7.py) now lives
next to the test; default artifact dir is repo-relative
(tests/policies/groot/artifacts/), overridable via GROOT_N1_7_PARITY_DIR. The
test only reads artifacts and skips if absent -- it never creates external dirs.
- Heavy .npz artifacts (~6-9MB each) are gitignored and regenerated by the producer;
never committed.
- Drop the verbose 'MULTIPLE EMBODIMENTS' docstring block (kept a one-line note).
- Document the parity procedure in the groot policy README (docs/source/policy_groot_README.md).
- Rename test fn test_groot_n1_7_get_action_parity -> test_groot_get_action_parity.
9/9 embodiments still pass (max|diff| < 3e-6, fp32 eps).
Generalize the original-vs-LeRobot N1.7 output-parity test from a single
libero_sim case to every embodiment tag in the checkpoint (libero_sim, oxe_droid,
real_g1, the real_r1_pro_sharpa family, and the xdof family). Inputs are built
generically from checkpoint metadata; the test discovers per-tag .npz artifacts
and runs one parametrized case each, loading the LeRobot model once via a fixture.
All 9 embodiments match the original to fp32 epsilon (max|diff| < 3e-6), confirming
the integration is correct across the model's full embodiment space and not overfit
to libero_sim.
Verifies the LeRobot GR00T N1.7 integration produces equivalent raw
action_pred to NVIDIA Isaac-GR00T for the same checkpoint, inputs, seed,
precision (fp32) and attention kernel (SDPA): max|diff|=8.9e-7 on the
libero_sim embodiment (GR00T-N1.7-LIBERO/libero_10).
The two impls pin incompatible transformers majors (orig 4.57.3 vs
LeRobot 5.x) and cannot share a process, so the original outputs + exact
collated inputs are produced out-of-process and loaded from an .npz. The
test skips on CI / when the checkpoint or artifact are absent.
Align the MolmoAct2 implementation with lerobot codebase conventions:
- Rename hf_model/ to molmoact2_hf_model/
- Slim config: move all I/O and runtime logic to modeling
- Remove blanket from 8 vendored files, fix 66 lint issues
- Deduplicate _hf_token() and _resolve_checkpoint_location()
- Make huggingface_hub imports lazy
- Remove custom MolmoAct2CosineDecayWithWarmupSchedulerConfig, use base class
- Extract 13 static/classmethods from MolmoAct2Policy to free functions
- Replace print() with logger in vendored action_tokenizer
- Add module docstrings, class docstring, and key method docstrings
- Add module-level loggers to modeling and processor
- Fix docs: pip to uv install, deduplicate README symlink
- Remove shebangs from all files
* feat(train): FSDP checkpoint saving
* adding docs for FSDP
* adding a test for the fsdp checkpoint path
* cleanup
* fixing final upload to hub
* refactored initial implementation to use torch fsdp api and adding new tests
* first commit
* feat(policies): add VLA-JEPA
* feat(policies): add VLA-JEPA
* support vla_jepa
* (feat)policies: add VLA-JEPA
* linting
* adding deps to pyproject.toml
* updating uv lock
* adding guards to avoid needing transformers and diffusers for type checking and basic tests
* fixing action and state dim
* fix warnings with qwen processor kwargs
* fixing wm_loss not propagating
* adjusting obs steps, tublets size to match original implementation
* some more fixes to be closer to the original implem
* adding more tests to ensure good coverage
* align VLA-JEPA architecture with original checkpoint
- Remove stale `action_num_heads` / `action_attention_head_dim` config fields;
DiT head dimensions are now always derived from the preset (DiT-B/L/test).
- Add `num_target_vision_tokens` and `action_max_seq_len` config fields required
by the action head's future-token embedding and positional embedding tables.
- Fix default `qwen_model_name` to 2B (matches all released checkpoints).
- Rename `ActionEncoder` attrs w1/w2/w3 → layer1/layer2/layer3 to match
checkpoint key names; replace `nn.Sequential` decoder/state-encoder with
`_MLP2` (layer1/layer2 naming).
- Fix `VLAJEPAActionHead` to size ActionEncoder and StateEncoder at `inner_dim`
(DiT input width) rather than `action_hidden_size` (DiT output width).
- Rename `DiT.blocks` → `transformer_blocks` and `attn` → `attn1` to match
checkpoint; add alternating cross/self attention (even blocks cross-attend to
Qwen context, odd blocks self-attend).
- Add `DiT-test` preset for unit tests.
- Rewrite `ActionConditionedVideoPredictor` with explicit ViT-style blocks
(`_PredictorBlock` with fused qkv) to match checkpoint structure; rename
`encoder`/`norm`/`proj` → `predictor_blocks`/`predictor_norm`/`predictor_proj`.
* propagate action_is_pad masking through VLA-JEPA policy pipeline
Pass the `action_is_pad` tensor from the batch through to the action head
so padded timesteps are excluded from the flow-matching loss.
* update VLA-JEPA tests for arch changes and action_is_pad
- Switch conftest to use `action_model_type="DiT-test"` now that
`action_num_heads` / `action_attention_head_dim` have been removed.
- Add action_head tests covering fully-padded loss (zero) and equivalence
of action_is_pad=None vs all-zeros mask.
- Remove obsolete `test_native_to_lerobot_wm_only` test.
* add VLA-JEPA documentation
Covers architecture overview, pretrained checkpoints, config reference,
training/eval commands for LIBERO-10, and guidance on fine-tuning for
single-camera datasets.
* add one-shot script to convert ginwind/VLA-JEPA checkpoints to safetensors (will remove once migrated)
* make default params more aligned with paper and pretrained models
- adding possibility of freezing qwen backbone and world model
- added tests for weight loading
* trying out to re-init the action head to avoid pretraining dimension mismatch
* allow different state dim and action dim
* removing missleading future_action_window_size to just use chunk_size
* lots of changes to make existing weights work, need to massively refactor the pre and post processing
* refactoring into using pre and post processor
* pre-commit cleanup
* fixing doc defaults args
Signed-off-by: Maxime Ellerbach <maxime@ellerbach.net>
* adressing dtype zeros issue
* adding guard for diffusers
* fixing training and exal examples
* trying to close success rate gap
* fix qwen norm layer output libero eval is now as expected
* adding instructions for different embodiement + fixing some tests
* smol fix to avoid having default CPU device when training
* fixing misconception about multiview / singleview handling
* removing conversion script
* adding licences
* adding .mdx docs and shortening polivy_vla_jepa_README.md
* removing useless pre-processor
* cleanup
* removing swish in favor of silu
* adding configuration gripper index and threshold
* fixing simlink
---------
Signed-off-by: Maxime Ellerbach <maxime@ellerbach.net>
Co-authored-by: ginwind <ginwind@mail.ustc.edu.cn>
* chore(gr00t): sync with #3606 for fixing gr00t config crash
* fix(pi0&pi05): fix graph break caused by deepcopy of past_key_values in sample_actions
* fix(pi0&pi05): fix frequent recompile caused by compute_layer_complete
* feat(test): add compile test and benchamrk for pi0 and pi05
* feat(test): add comprehensive testing for pi0 and pi05. Including processor, forward, sample action, etc.
* refactor: RL stack refactoring — RLAlgorithm, RLTrainer, DataMixer, and SAC restructuring
* chore: clarify torch.compile disabled note in SACAlgorithm
* fix(teleop): keyboard EE teleop not registering special keys and losing intervention state
Fixes#2345
Co-authored-by: jpizarrom <jpizarrom@gmail.com>
* fix: remove leftover normalization calls from reward classifier predict_reward
Fixes#2355
* fix: add thread synchronization to ReplayBuffer to prevent race condition between add() and sample()
* refactor: update SACAlgorithm to pass action_dim to _init_critics and fix encoder reference
* perf: remove redundant CPU→GPU→CPU transition move in learner
* Fix: add kwargs in reward classifier __init__()
* fix: include IS_INTERVENTION in complementary_info sent to learner for offline replay buffer
* fix: add try/finally to control_loop to ensure image writer cleanup on exit
* fix: use string key for IS_INTERVENTION in complementary_info to avoid torch.load serialization error
* fix: skip tests that require grpc if not available
* fix(tests): ensure tensor stats comparison accounts for reshaping in normalization tests
* fix(tests): skip tests that require grpc if not available
* refactor(rl): expose public API in rl/__init__ and use relative imports in sub-packages
* fix(config): update vision encoder model name to lerobot/resnet10
* fix(sac): clarify torch.compile status
* refactor(rl): update shutdown_event type hints from 'any' to 'Any' for consistency and clarity
* refactor(sac): simplify optimizer return structure
* perf(rl): use async iterators in OnlineOfflineMixer.get_iterator
* refactor(sac): decouple algorithm hyperparameters from policy config
* update losses names in tests
* fix docstring
* remove unused type alias
* fix test for flat dict structure
* refactor(policies): rename policies/sac → policies/gaussian_actor
* refactor(rl/sac): consolidate hyperparameter ownership and clean up discrete critic
* perf(observation_processor): add CUDA support for image processing
* fix(rl): correctly wire HIL-SERL gripper penalty through processor pipeline
(cherry picked from commit 9c2af818ff)
* fix(rl): add time limit processor to environment pipeline
(cherry picked from commit cd105f65cb)
* fix(rl): clarify discrete gripper action mapping in GripperVelocityToJoint for SO100
(cherry picked from commit 494f469a2b)
* fix(rl): update neutral gripper action
(cherry picked from commit 9c9064e5be)
* fix(rl): merge environment and action-processor info in transition processing
(cherry picked from commit 30e1886b64)
* fix(rl): mirror gym_manipulator in actor
(cherry picked from commit d2a046dfc5)
* fix(rl): postprocess action in actor
(cherry picked from commit c2556439e5)
* fix(rl): improve action processing for discrete and continuous actions
(cherry picked from commit f887ab3f6a)
* fix(rl): enhance intervention handling in actor and learner
(cherry picked from commit ef8bfffbd7)
* Revert "perf(observation_processor): add CUDA support for image processing"
This reverts commit 38b88c414c.
* refactor(rl): make algorithm a nested config so all SAC hyperparameters are JSON-addressable
* refactor(rl): add make_algorithm_config function for RLAlgorithmConfig instantiation
* refactor(rl): add type property to RLAlgorithmConfig for better clarity
* refactor(rl): make RLAlgorithmConfig an abstract base class for better extensibility
* refactor(tests): remove grpc import checks from test files for cleaner code
* fix(tests): gate RL tests on the `datasets` extra
* refactor: simplify docstrings for clarity and conciseness across multiple files
* fix(rl): update gripper position key and handle action absence during reset
* fix(rl): record pre-step observation so (obs, action, next.reward) align in gym_manipulator dataset
* refactor: clean up import statements
* chore: address reviewer comments
* chore: improve visual stats reshaping logic and update docstring for clarity
* refactor: enforce mandatory config_class and name attributes in RLAlgorithm
* refactor: implement NotImplementedError for abstract methods in RLAlgorithm and DataMixer
* refactor: replace build_algorithm with make_algorithm for SACAlgorithmConfig and update related tests
* refactor: add require_package calls for grpcio and gym-hil in relevant modules
* refactor(rl): move grpcio guards to runtime entry points
* feat(rl): consolidate HIL-SERL checkpoint into HF-style components
Make `RLAlgorithmConfig` and `RLAlgorithm` `HubMixin`s, add abstract
`state_dict()` / `load_state_dict()` for critic ensemble, target nets
and `log_alpha`, and persist them as a sibling `algorithm/` component
next to `pretrained_model/`. Replace the pickled `training_state.pt`
with an enriched `training_step.json` carrying `step` and
`interaction_step`, so resume restores actor + critics + target nets +
temperature + optimizers + RNG + counters from HF-standard files.
* refactor(rl): move actor weight-sync wire format from policy to algorithm
* refactor(rl): update type hints for learner and actor functions
* refactor(rl): hoist grpcio guard to module top in actor/learner
* chore(rl): manage import pattern in actor (#3564)
* chore(rl): manage import pattern in actor
* chore(rl): optional grpc imports in learner; quote grpc ServicerContext types
---------
Co-authored-by: Khalil Meftah <khalil.meftah@huggingface.co>
* update uv.lock
* chore(doc): update doc
---------
Co-authored-by: jpizarrom <jpizarrom@gmail.com>
Co-authored-by: Steven Palma <imstevenpmwork@ieee.org>
* feat(policies): add EO-1 model
* chore(eo1): adjust policy_eo1_README.md to to avoid duplicate with eo1.mdx
* chore(eo1): remove policy_eo1_README.md, link eo1.mdx in policy folder
---------
Co-authored-by: Pepijn <138571049+pkooij@users.noreply.github.com>
* feat(rewards): add RewardModelConfig and PreTrainedRewardModel base classes
* refactor(rewards): migrate Classifier from policies/sac/reward_model/ to rewards/classifier/
* refactor(rewards): migrate SARM from policies/sarm/ to rewards/sarm/
* refactor(rewards): add rewards/factory.py and remove reward model code from policies/factory.py
* refactor(rewards): update imports and delete old reward model locations
* test(rewards): add reward model tests and update existing test imports
* fix(rewards): restore full Classifier and SARM implementations
* test(rewards): restore missing CUDA and mixed precision classifier processor tests
* refactor(lerobot_train.py): remove rabc specific configuration and replace it with a generic samplerweight class in lerobot_train
* refactor(lerobot_train.py): add missing sampling weight script
* linter + missing files
* add testing for sampl weighter
* revert some useless changes, improve typing
* update docs
* add automatic detection of the progress path
* remove type exp
* improve comment
* fix: move rabc.py to rewards/sarm/ and update import paths
* refactor(imports): update reward model imports to new module structure
* refactor(imports): update reward model imports to reflect new module structure
* refactor(imports): conditionally import pandas based on availability
* feat(configs): add reward_model field to TrainPipelineConfig and Hub fields to RewardModelConfig
* refactor(policies): remove reward model branches from policy factory and __init__
* refactor(rewards): expand __init__ facade and fix SARMConfig __post_init__ crash
* feat(train): route reward model training through rewards/factory instead of policies/factory
* refactor(train): streamline reward model training logic
* fix(rewards): ensure FileNotFoundError is raised for missing config_file
* refactor(train): update __get_path_fields__ to include reward_model for config loading
* refactor(classifier): remove redundant input normalization in predict_reward method
* fix(train): raise ValueError for non-trainable reward models in train function
* refactor(pretrained_rm): add model card template
* refactor(tests): reward models
* refactor(sarm): update reset method and remove unused action prediction methods
* refactor(wandb): differentiate tags for reward model and policy training in cfg_to_group function
* fix(train): raise ValueError for PEFT usage in reward model training
* refactor(rewards): enhance RewardModelConfig with device handling and delta indices properties
---------
Co-authored-by: Michel Aractingi <michel.aractingi@huggingface.co>
* docs(benchmarks): add benchmark integration guide and standardize benchmark docs
Add a comprehensive guide for adding new benchmarks to LeRobot, and
refactor the existing LIBERO and Meta-World docs to follow the new
standardized template.
Made-with: Cursor
* refactor(envs): move dispatch logic from factory into EnvConfig subclasses
Replace hardcoded if/elif chains in factory.py with create_envs() and
get_env_processors() methods on EnvConfig. New benchmarks now only need
to register a config subclass — no factory.py edits required.
Net -23 lines: factory.py shrinks from ~200 to ~70 lines of logic.
Made-with: Cursor
* docs(benchmarks): clean up adding-benchmarks guide for clarity
Rewrite for simpler language, better structure, and easier navigation.
Move quick-reference table to the top, fold eval explanation into
architecture section, condense the doc template to a bulleted outline.
Made-with: Cursor
* fix link
* fix task count
* fix: enable SmolVLA eval on LIBERO with custom camera mappings
- Thread camera_name_mapping from LiberoEnv config through to gym envs
- Sync features_map with camera_name_mapping in LiberoEnv.__post_init__
- Fix render() to use first available camera instead of hardcoded "image"
- Handle non-dict final_info in rollout by falling back to info["is_success"]
- Add use_peft legacy field to SmolVLAConfig for checkpoint compat
- Add defaults to GR00TN15Config init=False fields for transformers 5.3
Made-with: Cursor
* fix: use direct AutoresetMode import for gymnasium compat
Made-with: Cursor
* fix: handle gymnasium < 1.0 without AutoresetMode
Made-with: Cursor
* refactor: revert policy changes, keep env-only camera mapping fixes
- Revert GR00T N1.5 default_factory/default changes (transformers compat)
- Revert SmolVLA use_peft legacy field
- Apply ruff formatting fixes
- camera_name_mapping stays entirely in env/eval layer (no policy changes)
Made-with: Cursor
* Update docs/source/env_processor.mdx
Co-authored-by: Khalil Meftah <khalil.meftah@huggingface.co>
Signed-off-by: Pepijn <138571049+pkooij@users.noreply.github.com>
* feat(envs): lazy env init + AsyncVectorEnv as default for n_envs > 1
LiberoEnv and MetaworldEnv previously allocated GPU resources (EGL context,
OpenGL framebuffer) in __init__, before AsyncVectorEnv's fork(). Worker
processes inherited stale GPU handles, causing EGL_BAD_CONTEXT crashes on
first render.
Fix: defer OffScreenRenderEnv / MT1 construction to _ensure_env(), called on
first reset() or step() inside the worker subprocess. Each worker creates its
own clean context after fork().
Also fixes lerobot_eval.py:170 (add_envs_task TODO): replace with
env.call("task") which works with both SyncVectorEnv and AsyncVectorEnv.
AsyncVectorEnv is now the default for n_envs > 1; auto-downgraded to
SyncVectorEnv when n_envs=1 (no benefit, less overhead).
Expected speedup: ~15-20x for LIBERO Spatial with batch_size=50.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix: close envs between tasks to prevent worker process accumulation
eval_policy_all never closed environments after each task completed,
causing AsyncVectorEnv worker processes to accumulate (N_tasks × n_envs).
This led to OOM, BrokenPipeError and EOFError on multi-task benchmarks.
Also fixes:
- AsyncVectorEnv compat in envs/utils.py (use get_attr/call instead of .envs)
- Tuple task handling in tokenizer_processor and lerobot_eval
- _LazyAsyncVectorEnv for deferred worker spawning in LIBERO
Made-with: Cursor
* fix(eval): use task_description instead of task for language conditioning
env.call("task") returns the LIBERO task name with underscores
(e.g. "pick_up_the_black_bowl_...") instead of the natural language
description ("pick up the black bowl ..."). The VLM tokenizes these
completely differently, causing 0.0 reward across all episodes.
Made-with: Cursor
* docs: update adding_benchmarks for async env changes
- Replace add_envs_task reference with env.call("task_description")
- Update use_async_envs default to True
- Add note about lazy GPU init for AsyncVectorEnv compatibility
Made-with: Cursor
* feat(eval): batch_size=auto + faster env loading
- batch_size=0 (default) auto-tunes based on CPU cores, capped by
n_episodes and 64. Removes the need for users to guess the right
value. The old batch_size > n_episodes error is replaced by silently
clamping to n_episodes.
- _LazyAsyncVectorEnv accepts pre-computed spaces so only one temp env
is created per suite (not per task). For libero_spatial (10 tasks)
this avoids 9 redundant LiberoEnv instantiations during env setup.
Made-with: Cursor
* docs: add evaluation guide and update benchmarks doc
- New docs/source/evaluation.mdx covering lerobot-eval usage, batch_size
auto-tuning, AsyncVectorEnv performance, tuning tips, output format,
multi-task evaluation, and programmatic usage.
- Add evaluation page to _toctree.yml under Benchmarks section.
- Update adding_benchmarks.mdx to reference batch_size auto default and
link to the evaluation guide.
Made-with: Cursor
* docs(evaluation): remove benchmark table, rename section header
Made-with: Cursor
* perf(eval): shared memory, observation passthrough, task prefetch
- AsyncVectorEnv now uses shared_memory=True for zero-copy observation transfer
- LiberoEnvConfig.gym_kwargs passes observation_height/width to the env
- eval_policy_all prefetches next task's workers while current task runs
Made-with: Cursor
* style: ruff format
Made-with: Cursor
* chore: revert env_processor.mdx changes (not part of this PR)
Made-with: Cursor
* ci(benchmarks): add isolated integration tests for libero and metaworld
Each benchmark gets its own Docker image (lerobot[libero] / lerobot[metaworld]
only) so incompatible dep trees cannot collide. A 1-episode smoke eval runs
per benchmark on GPU runners.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* ci(benchmarks): pin action hashes and use uv sync --locked
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* ci(benchmarks): trigger only on envs/ or lerobot_eval.py changes
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(ci): set LIBERO_DATA_FOLDER to bypass interactive stdin prompt
libero/__init__.py calls input() to ask about a custom dataset path,
which raises EOFError when stdin is closed inside Docker. Setting
LIBERO_DATA_FOLDER skips the prompt entirely.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* docs(benchmarks): add CI smoke test step to adding_benchmarks guide
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(ci): pre-create libero config in Dockerfile to bypass stdin prompt
libero/__init__.py calls input() when ~/.libero/config.yaml is missing.
We write the config at image build time (without importing libero) so
the prompt never fires at runtime. Also trigger CI on pyproject.toml changes.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(ci): use shell to create libero config instead of multiline python -c
The multiline RUN python -c "..." was being parsed as Dockerfile
instructions. Use printf to write ~/.libero/config.yaml directly.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(ci): point libero config to bundled package init_files
The config was pointing to /tmp/libero_init which doesn't exist.
Use importlib.util.find_spec to locate the hf-libero package directory
and write paths to the actual bundled bddl_files/init_files/assets.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(ci): add smolvla extra to benchmark Dockerfiles
num2words (required by SmolVLM processor) is declared in lerobot[smolvla],
not lerobot[libero/metaworld]. Install both extras together.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(eval): render_frame covers _LazyAsyncVectorEnv
isinstance(env, AsyncVectorEnv) silently skipped _LazyAsyncVectorEnv,
causing video rendering to produce no frames on the default async path.
Switch to hasattr(env, "call") so any async-compatible env (including
_LazyAsyncVectorEnv) hits the call("render") branch.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* refactor(envs): remove unused _get_sub_env_attr helper
_get_sub_env_attr was defined but never called anywhere in the codebase.
_sub_env_has_attr (its sibling) is kept — it is actively used in utils.py.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* chore: apply prettier formatting to docs
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* docs(env_processor): remove deprecated add_envs_task from pipeline example
add_envs_task is replaced by env.call("task_description") in this PR.
Remove it from the pipeline walkthrough and renumber the steps (8→7).
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* refactor(envs): remove __del__ from _LazyAsyncVectorEnv
__del__ is unreliable as a cleanup mechanism. close() is already called
explicitly in the eval loop's finally block, so the finalizer is redundant.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(eval): prefetch next task's workers after close to avoid GPU memory overlap
Previously, next task's AsyncVectorEnv workers were spawned while the
current task was still running, causing both tasks' GPU contexts to coexist.
Moving the prefetch start into the finally block (after env.close()) ensures
workers for task N+1 only spin up once task N has released GPU memory.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* refactor(envs): move _LazyAsyncVectorEnv to utils and apply to metaworld
_LazyAsyncVectorEnv lived in libero.py but metaworld had the same OOM
problem: all tasks' AsyncVectorEnv workers were spawned eagerly, wasting
GPU memory for tasks not yet running.
Move the class to envs/utils.py so both environments share it, then apply
the same is_async + lazy wrapping pattern in create_metaworld_envs.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* chore: remove out-of-scope benchmark/CI/docs files from PR
Benchmark CI workflow, Dockerfiles, benchmark docs, evaluation smoke-test
doc, and dispatch tests belong in a separate PR. Scope this PR to the
async env init changes only.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* chore: restore adding_benchmarks + test_dispatch, drop env_processor changes
- Restore docs/source/adding_benchmarks.mdx (belongs in this PR)
- Restore tests/envs/test_dispatch.py (belongs in this PR)
- Revert docs/source/env_processor.mdx to main (out of scope for this PR)
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* docs(adding_benchmarks): remove CI smoke test step (coming in separate PR)
Step 7 (Dockerfile + benchmark_tests.yml CI job) and its table rows are
out of scope for this PR. The CI infrastructure will be added on top in a
follow-up PR.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* refactor(envs): remove unused add_envs_task
Replaced by env.call("task_description") in lerobot_eval.py. No callers
remain in the codebase.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* style: fix prettier formatting in env_processor.mdx
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(eval): catch AttributeError and NotImplementedError explicitly for task description
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(envs): use forkserver context and close envs in test to prevent deadlock
AsyncVectorEnv with default fork context leaks worker processes between
test_policy parametrized cases; subsequent env creation deadlocks because
new forked workers inherit stale pipe FDs from previous test's leaked workers.
- configs.py: pass context="forkserver" to AsyncVectorEnv (matches _LazyAsyncVectorEnv)
- test_policies.py: call close_envs(envs) at end of test_policy to clean up workers
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
* fix(envs): default use_async_envs=False in create_envs and make_env
Tests that call make_env(n_envs=2) without passing use_async_envs were
getting AsyncVectorEnv, whose forked workers can't resolve gym namespaces
registered at runtime. Default to False (sync) so existing tests pass.
lerobot_eval.py explicitly passes cfg.eval.use_async_envs, so the CLI
async behaviour (controlled by EvalConfig.use_async_envs) is unchanged.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
---------
Signed-off-by: Pepijn <138571049+pkooij@users.noreply.github.com>
Co-authored-by: Khalil Meftah <khalil.meftah@huggingface.co>
Co-authored-by: Claude Sonnet 4.6 <noreply@anthropic.com>
* feat: HIL data collection, RTC interpolator, and action queue improvements
- Add Human-in-the-Loop (HIL) data collection examples (sync + RTC)
- Add HIL data collection documentation
- Add ActionInterpolator for smoother policy control at higher rates
- Integrate interpolator into lerobot-record and eval_with_real_robot
- Add action queue clear() and get_processed_left_over() methods
- Add rtc/__init__.py for cleaner imports
* docs: expand Related Work section with paper summaries
* fix: only record dataset frames at original fps, not at interpolated rate
The interpolator speeds up robot control (e.g. 2x) but dataset frames
should still be recorded at the original fps. Interpolated-only
iterations now only send actions to the robot without writing to the
dataset.
* refactor: merge HIL sync and RTC scripts into single file with --rtc.enabled toggle
Combines hil_data_collection.py and hil_data_collection_rtc.py into one
script. RTC is toggled via --rtc.enabled=true (defaults to off for sync
inference). Deletes the separate hil_data_collection_rtc.py and updates
docs to reflect the single-script usage.
* test: add ActionInterpolator test suite (29 tests)
Covers constructor validation, passthrough (multiplier=1), 2x and 3x
interpolation with exact value checks, reset/episode boundaries,
control interval calculation, multi-dim actions, and simulated
control loop integration.
* test: add ActionQueue + ActionInterpolator integration tests
Verifies the interpolator doesn't interfere with RTC's leftover chunk
tracking: queue consumption rate matches base fps regardless of
multiplier, get_left_over/get_processed_left_over only change on
queue.get(), merge preserves smooth interpolation across chunks,
and interpolator reset is independent of queue state.
* feat: register SO follower/leader configs in HIL script
Adds SOFollowerRobotConfig and SOLeaderTeleopConfig imports so
SO100/SO101 robots can be used via --robot.type=so_follower
and --teleop.type=so_leader. Updates docs accordingly.
Made-with: Cursor
* docs: remove em dashes from HIL documentation
Made-with: Cursor
* refactor: rename examples/rac to examples/hil
Updates directory name and all references in docs and script docstrings.
Made-with: Cursor
* fix: encorperate pr feedback comments
* refactor(tests): enhance ActionInterpolator test structure and add detailed docstrings
* feedback pr and test fix
* fix(test): pass correct real_delay in interpolator delay test
The test was passing real_delay=0 and relying on _check_delays to
silently override it with the index-based diff. Now passes real_delay=3
to match the 3 actions consumed during the simulated inference period.
* fix pr feedback
* ordering
* update hil script
* fix
* default name
* fix(bi_openarm): use kw_only=True to fix dataclass field ordering
BiOpenArmFollowerConfig overrides `id` with a default, making it
positional in the child — non-default `left_arm_config` then follows a
default field, which Python dataclasses forbid. Adding kw_only=True
(matching the parent RobotConfig) removes positional constraints.
Made-with: Cursor
* style: format long line in hil_data_collection.py
Made-with: Cursor
* pr feedback
---------
Co-authored-by: Khalil Meftah <khalil.meftah@huggingface.co>
* Add option for pi family models to train with relative actions (relative to state)
* formatting
* add recomputation of stats and option to compute delta stats
* normalzie after delta conversion
* only recompute state for stats
* calulate chunk based stats
* sample 100k
* load from parquet
* sample 1m
* stats per chunck
* fix
* use quantiles
* stats for entire dataset
* fix
* max 1m frames
* compute before dist
* fix multi gpu processor bug
* Fix RTC with delta actions and OpenArms motor_type wiring
* feat: align pi0_fast delta actions with pi0/pi05 and add RTC integration tests
- Add delta_exclude_joints and action_feature_names to PI0FastConfig
- Move to_absolute_actions from modeling to processor pipeline for pi0_fast
- Add delta action detection and logging to eval_with_real_robot.py
- Add delta actions documentation to pi0 and pi05 READMEs
- Fix ruff lint issues in test_delta_actions.py
- Add test_rtc_delta_actions.py (24 tests) covering:
- ActionQueue with delta vs absolute actions
- RTC denoise step with delta leftovers
- Full pipeline roundtrip (delta → RTC → absolute)
- State rebasing approximation bounds
- Non-delta policy compatibility
- Multi-chunk consistency
* chore: clean up test comments, add OpenPI attribution, remove debug logging
- Replace decorative comment separators in test files with plain section headers
- Add attribution comments for 1e-6 epsilon in normalize_processor.py (from OpenPI)
- Remove debug logging blocks from lerobot_train.py
* refactor: extract compute_delta_action_stats into compute_stats.py
Move the ~70-line inline delta action stats block from lerobot_train.py
into a dedicated function in compute_stats.py, where all other stats
computation already lives. The training script now calls it in 6 lines.
* refactor: remove unused get_processed_left_over from ActionQueue
This method was never called outside of tests. Leftover actions for RTC
guidance are always retrieved via get_left_over() (delta/original space).
* revert: remove logging-only changes from eval_with_real_robot.py
The delta actions detection helper and log message added no functional
value — the script already handles delta policies correctly via the
processor pipeline.
* refactor: use ACTION/OBS_STATE constants instead of hardcoded strings
Replace hardcoded "action" and "observation.state" with ACTION and
OBS_STATE from utils.constants in compute_stats.py, dataset_tools.py,
and lerobot_train.py.
* style: remove stray blank lines in training loop
* refactor: move delta action stats to preprocessing step, remove on-the-fly computation
- Remove on-the-fly compute_delta_action_stats from lerobot_train.py
- Rewrite recompute_stats to delegate action stats to compute_delta_action_stats
(chunk-based sampling matching what the model sees during training)
- Add chunk_size parameter to recompute_stats for delta action computation
- Add delta actions documentation to pi0.mdx and pi05.mdx
* feat: add recompute_stats CLI operation to lerobot-edit-dataset
* fix(tests): relax quantile normalization test tolerance for 1e-6 epsilon
* chore: remove agents_memory/pr_details.md from repo
* refactor: rename delta actions to relative actions throughout
What OpenPI calls "DeltaActions" is actually UMI's "relative trajectory"
representation: each action in the chunk is an offset from the current
state, not from the previous action. This avoids error accumulation.
Renamed across all source, tests, docs, and CLI:
- DeltaActionsProcessorStep → RelativeActionsProcessorStep
- to_delta_actions → to_relative_actions
- use_delta_actions → use_relative_actions
- delta_exclude_joints → relative_exclude_joints
- compute_delta_action_stats → compute_relative_action_stats
- delta_action_processor.py → relative_action_processor.py
- test_delta_actions.py → test_relative_actions.py
Kept as-is: AbsoluteActionsProcessorStep (converts TO absolute),
registry ID "delta_actions_processor" (backward compat), and unrelated
delta references (IK pipeline, Robosuite, RA-BC metrics, gym envs).
* docs: add Action Representations guide
Dedicated page explaining absolute, relative, and delta actions with
numerical examples, joint vs EE space, and how to use kinematics
pipelines and the relative action processor. References UMI paper
(Chi et al., 2024) for the terminology.
* docs: remove redundant OpenPI naming note from action representations
* docs: remove opinionated OpenPI reference from delta actions section
* docs: replace ASCII diagram with UMI paper figure
* docs: remove OpenPI reference from action representations
* docs: use HF-hosted image instead of local asset
* docs: clarify figure attribution
* revert: restore original normalization epsilon behavior
The 1e-6 unconditional epsilon change perturbed all normalized values,
breaking backward compatibility tests. The original approach (1e-8 eps
for MEAN_STD, conditional torch.where for QUANTILES) already handles
division by zero correctly without affecting non-degenerate cases.
* fix: restore delta_action_processor.py used by phone/RL teleop
The rename commit incorrectly deleted delta_action_processor.py and
duplicated its classes into relative_action_processor.py. Restore the
original file and import from it instead.
* fix(processor): address PR #2970 review comments
- Remove shebang from relative_action_processor.py (library module, not script)
- Add device alignment in to_relative_actions/to_absolute_actions so _last_state
on CPU doesn't cause cross-device errors when actions are on CUDA
- Rename delta_step → relative_step in AbsoluteActionsProcessorStep for naming
consistency; update factory.py, all processor files, and tests
- Expand _reconnect_relative_absolute_steps docstring to explain why post-hoc
rewiring is needed after deserialization
- Fix off-by-one in compute_stats.py: sample_upper_bound = total_frames - chunk_size + 1
so last valid start index is included and total_frames == chunk_size is not rejected
- Remove redundant NOTE comment in processor_pi05.py (duplicated two lines below)
- Fix pi0_fast processor ordering: move relative_step before NormalizerProcessorStep
so normalizer sees delta actions (matching pi0/pi05); flip postprocessor to
unnormalize → absolute accordingly. Relative stats are now required for all pi models
- Revert use_relative_joint_actions_aloha → use_delta_joint_actions_aloha in
configuration_smolvla.py (preserve existing public API)
- Update action_representations.mdx: add missing joint to 6-DOF example, fix
'based on a figure', clarify pi family ordering, add RTC compatibility section
* update rtc link
* feat: compute relative action stats over full dataset with optional parallelism
Remove the 100k sample cap from compute_relative_action_stats and process
all valid chunks. Vectorize with numpy (pre-load actions/states, fancy
indexing + broadcasting) for a large speedup over the per-index HF dataset
loop. Add num_workers param for thread-based parallelism (numpy releases
the GIL). Update docs to show --push_to_hub for recompute_stats.
* style: apply ruff formatting to compute_stats.py
* testing on real robot
* style: fix ruff format and remove redundant .keys() calls
* Add multitask diffusion transformer policy
Add multitask diffusion transformer policy
* expand the observation encoder to support differnt size encoders for vision and text
* add RoPE attention module as this is shown to help training dynamics and generation quality for DiTs
* update readme and citations for multitask dit policy
* remove dino vision encoder and simplify text and vision encoders by removing inheritance structure
* adjust factory comment
* update docstring for multitask dit policy processor file
* simplify config for multitask dit by merging and flattening everything, then adding comments to denote where some parameters are only used for specific objectives
* add references to the modeling file comments
* merge all modules files into the main modeling file
* add torch.no_grad decorators
* split up select action return statement
* remove redundant asserts
* add tutorial to training with multi_task_dit
* fix bugs when testing on hardware
* remove environment state conditioning
* update typo in test instruction comment
* add processor tests to multitask dit tests
* move policy to top of file
* use constants for indexing into batches and remove env state references
* remove the base classes since we don't need to be able to extend
* fix nit formatting in generate actions fcn
* reformat and clean up tutorial for multitask dit policy
* add more descriptions and depth to multitask dit tutorial
* note origins of each training objective
* rename config param for multiple vision encoders
* refactor code to perform task tokenization in the processor instead of in the modeling code for multitask dit
* add multitask dit to toc for docs
* add conditional transformers import to match all other policies that use transformers lib
* add test handling for multitask dit when transformers isnt available
* skip tests without transformers
* remove cropping of images smaller than the crop size
* add kwargs arg to multitask dit constructor
* add wallx dep conflict management for multitask dit policy
* use hyphens for cleanliness in pyproject.toml
* add conflict management to pyproject toml for pi conflict for mtdp as well
* update tests script to not use unnecessary uv sync call which resolves dependencies that do not need to run. This drastically reduces CI run time
* revert fast tests edits
* update docs and readme files, fixing some typos and adding multitask dit to readme
* chore(dependencies): upgrade transformers + hggingface-hub + peft + scipy
* chore(dependencies): bump pi0 family to transformers v5
* chore(dependencies): bump wall x to transformers v5
* chore(dependencies): bump gr00t to transformers v5
* chore(style): fix pre-commit
* fix(policy): xvla forced_bos_token missing
* test(rl): skip ci tests for resnet10
* Fix: full pi models support for transformer v5 (#2967)
* fix(pi): remove loss truncation
* fix(pi): remove state padding before tokenization
* fix(pi): fix image padding value
* fix from_pretrain
* add transformer v5 changes
* remove reference
* more fixes
* make it work
* add support for rest of pi family
* add pifast work
* more changes
* more changes
* more cleanup
* fix torch params
* dtype fix
* torch compile
* embed mismatch fix
* revert groot
* more nit fixes
* remove unused classes
* more fixes
* revert
* nit
* torch dtype warning fix
* but back dynamic renaming
* add tie embedding
---------
Co-authored-by: Yufei Sun <skieyfly@gmail.com>
* chore: fix XVLA in transformers v5 (#3006)
* test(policies): enable wall x CI testing
* style(test): pre-commit check
* style(test): pre-commit
---------
Signed-off-by: Bryson Jones <63133702+brysonjones@users.noreply.github.com>
Co-authored-by: Pepijn <138571049+pkooij@users.noreply.github.com>
Co-authored-by: Steven Palma <imstevenpmwork@ieee.org>
Co-authored-by: Jade Choghari <chogharijade@gmail.com>
Co-authored-by: Yufei Sun <skieyfly@gmail.com>
Co-authored-by: Steven Palma <steven.palma@huggingface.co>
* fix(vqbet): use in-place fill_ to avoid overwriting DDP GPU buffers with CPU tensors
When VQ discretization phase completes, the code was overwriting
register_buffer('discretized') and register_buffer('freeze_codebook')
with torch.tensor(True), which is created on CPU. DDP then fails in
_sync_buffers() with: RuntimeError: No backend type associated with
device type cpu. Fix by updating the buffers in-place with .fill_(True)
so device and registration are preserved.
Made-with: Cursor
* test(vqbet): add regression test for in-place buffer update during discretization
Verifies that discretize() updates the 'discretized' and 'freeze_codebook'
registered buffers in-place (via fill_()) rather than replacing them with new
CPU tensors. The test checks data_ptr() identity and that the tensors remain
registered buffers after the call. This prevents regressions of the DDP fix.
Made-with: Cursor
* test(vqbet): add GPU regression test to verify buffers stay on CUDA after discretize()
Directly catches the original DDP failure mode: when buffers are replaced with
torch.tensor(True) they land on CPU, causing NCCL to raise 'No backend type
associated with device type cpu' in _sync_buffers(). The GPU test places the
model on cuda:0 and asserts both buffers remain on CUDA after discretization.
Made-with: Cursor
* test(vqbet): simplify to single device-check test in test_policies.py
Per reviewer feedback: remove the separate test file and replace the two
CPU/GPU tests (with data_ptr checks) with a single focused test in
tests/policies/test_policies.py that only asserts the registered buffers
remain on the model device after discretize(). Uses DEVICE from tests/utils.py
so it runs on whatever device the CI/user selects (cpu, cuda, mps).
Made-with: Cursor
* style: fix import order in test_policies.py to pass ruff/pre-commit checks
Made-with: Cursor
---------
Co-authored-by: Zhan DiJia <2476100824@example.com>
Co-authored-by: Khalil Meftah <khalil.meftah@huggingface.co>
* fix(ci): skip HF log in (and tests) in forks and community PRs
* chore(test): remove comment about test meant to be only run locally
* fix(tests): no hf log in decorator for xvla
* fix(test): no decorator in yield