Simple Replay Buffer for RL

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  • License: MIT License (MIT License Copyright (c) 2025 Phil Wang Permission is hereby granted, free of charge, to any pers...)
  • Author: Phil Wang
  • Tags artificial intelligence , deep learning , replay buffer
  • Requires: Python >=3.9
  • Provides-Extra: examples , test
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Project description

memmap-replay-buffer

An easy-to-use numpy memmap replay buffer for RL and other sequence-based learning tasks.

Install

$ pip install memmap-replay-buffer

Usage

Supports trajectory-level, timestep-level, and n-step transition dataloading from a single stored buffer.

import torch
from memmap_replay_buffer import ReplayBuffer

# initialize buffer

buffer = ReplayBuffer(
    './replay_data',
    max_episodes = 1000,
    max_timesteps = 500,
    fields = dict(
        state = ('float', (3, 16, 16), 0.),    # type, shape, and optional default value
        action = ('int', 2),
        reward = 'float'                       # default shape is ()
    ),
    meta_fields = dict(
        task_id = 'int'
    ),
    circular = True,
    overwrite = True
)

# store 4 episodes

for _ in range(4):
    with buffer.one_episode(task_id = 1):
        for _ in range(100):
            buffer.store(
                state = torch.randn(3, 16, 16),
                action = torch.randint(0, 4, (2,)).numpy(),
                reward = 1.0
            )

# rehydrate from disk

buffer_rehydrated = ReplayBuffer.from_folder('./replay_data')
assert buffer_rehydrated.num_episodes == 4

Trajectory-level

Variable-length trajectories, automatically padded with mask and lengths.

dataloader = buffer.dataloader(
    batch_size = 2,
    return_mask = True,
    to_named_tuple = ('state', 'action', 'reward', 'task_id', '_mask', '_lens')
)

for state, action, reward, task_id, mask, lens in dataloader:
    assert state.shape   == (2, 100, 3, 16, 16)
    assert action.shape  == (2, 100, 2)
    assert reward.shape  == (2, 100)
    assert task_id.shape == (2,)

    assert lens.shape    == (2,)
    assert mask.shape    == (2, 100)

Timestep-level

Individual timesteps across episodes, with optional filter_meta for conditioning.

dataloader = buffer.dataloader(
    batch_size = 8,
    filter_meta = dict(
        task_id = 1
    ),
    to_named_tuple = ('state', 'action', 'task_id'),
    timestep_level = True,
    drop_last = True
)

for state, action, task_id in dataloader:
    assert state.shape   == (8, 3, 16, 16)
    assert action.shape  == (8, 2)
    assert task_id.shape == (8,)

N-step transitions

Fetches current_fields at $t$, next_fields at $t + n$ (prefixed next_), and sequence_fields from $t$ to $t + n$ (prefixed seq_, zero-padded at episode boundaries). Use fieldname_map to remap to your model's kwargs.

dataloader = buffer.dataloader(
    batch_size = 4,
    n_steps = 5,
    current_fields = ('state',),
    next_fields = ('state',),
    sequence_fields = ('action', 'reward'),
    to_named_tuple = ('state', 'next_state', 'action_chunk', 'rewards', 'n_step_lens'),
    fieldname_map = {
        'seq_action': 'action_chunk',
        'seq_reward': 'rewards'
    }
)

for state, next_state, action_chunk, rewards, n_step_lens in dataloader:
    assert state.shape == (4, 3, 16, 16)
    assert next_state.shape == (4, 3, 16, 16)
    assert action_chunk.shape == (4, 5, 2)
    assert rewards.shape == (4, 5)
    assert n_step_lens.shape == (4,)

Project details

Verified details

These details have been verified by PyPI
Project links
Maintainers
Avatar for lucidrains from gravatar.com lucidrains

Unverified details

These details have not been verified by PyPI
Project links
Meta
  • License: MIT License (MIT License Copyright (c) 2025 Phil Wang Permission is hereby granted, free of charge, to any pers...)
  • Author: Phil Wang
  • Tags artificial intelligence , deep learning , replay buffer
  • Requires: Python >=3.9
  • Provides-Extra: examples , test
Classifiers

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