PrioritizedSampler¶
- class torchrl.data.replay_buffers.PrioritizedSampler(max_capacity: int, alpha: float, beta: float, eps: float = 1e-08, dtype: dtype = torch.float32, reduction: str = 'max', max_priority_within_buffer: bool = False)[source]¶
Prioritized sampler for replay buffer.
Presented in “Schaul, T.; Quan, J.; Antonoglou, I.; and Silver, D. 2015. Prioritized experience replay.” (https://arxiv.org/abs/1511.05952)
- Parameters:
max_capacity (int) – maximum capacity of the buffer.
alpha (float) – exponent α determines how much prioritization is used, with α = 0 corresponding to the uniform case.
beta (float) – importance sampling negative exponent.
eps (float, optional) – delta added to the priorities to ensure that the buffer does not contain null priorities. Defaults to 1e-8.
reduction (str, optional) – the reduction method for multidimensional tensordicts (ie stored trajectory). Can be one of “max”, “min”, “median” or “mean”.
max_priority_within_buffer (bool, optional) – if
True
, the max-priority is tracked within the buffer. WhenFalse
, the max-priority tracks the maximum value since the instantiation of the sampler.
Examples
>>> from torchrl.data.replay_buffers import ReplayBuffer, LazyTensorStorage, PrioritizedSampler >>> from tensordict import TensorDict >>> rb = ReplayBuffer(storage=LazyTensorStorage(10), sampler=PrioritizedSampler(max_capacity=10, alpha=1.0, beta=1.0)) >>> priority = torch.tensor([0, 1000]) >>> data_0 = TensorDict({"reward": 0, "obs": [0], "action": [0], "priority": priority[0]}, []) >>> data_1 = TensorDict({"reward": 1, "obs": [1], "action": [2], "priority": priority[1]}, []) >>> rb.add(data_0) >>> rb.add(data_1) >>> rb.update_priority(torch.tensor([0, 1]), priority=priority) >>> sample, info = rb.sample(10, return_info=True) >>> print(sample) TensorDict( fields={ action: Tensor(shape=torch.Size([10, 1]), device=cpu, dtype=torch.int64, is_shared=False), obs: Tensor(shape=torch.Size([10, 1]), device=cpu, dtype=torch.int64, is_shared=False), priority: Tensor(shape=torch.Size([10]), device=cpu, dtype=torch.int64, is_shared=False), reward: Tensor(shape=torch.Size([10]), device=cpu, dtype=torch.int64, is_shared=False)}, batch_size=torch.Size([10]), device=cpu, is_shared=False) >>> print(info) {'_weight': array([1.e-11, 1.e-11, 1.e-11, 1.e-11, 1.e-11, 1.e-11, 1.e-11, 1.e-11, 1.e-11, 1.e-11], dtype=float32), 'index': array([1, 1, 1, 1, 1, 1, 1, 1, 1, 1])}
Note
Using a
TensorDictReplayBuffer
can smoothen the process of updating the priorities:>>> from torchrl.data.replay_buffers import TensorDictReplayBuffer as TDRB, LazyTensorStorage, PrioritizedSampler >>> from tensordict import TensorDict >>> rb = TDRB( ... storage=LazyTensorStorage(10), ... sampler=PrioritizedSampler(max_capacity=10, alpha=1.0, beta=1.0), ... priority_key="priority", # This kwarg isn't present in regular RBs ... ) >>> priority = torch.tensor([0, 1000]) >>> data_0 = TensorDict({"reward": 0, "obs": [0], "action": [0], "priority": priority[0]}, []) >>> data_1 = TensorDict({"reward": 1, "obs": [1], "action": [2], "priority": priority[1]}, []) >>> data = torch.stack([data_0, data_1]) >>> rb.extend(data) >>> rb.update_priority(data) # Reads the "priority" key as indicated in the constructor >>> sample, info = rb.sample(10, return_info=True) >>> print(sample['index']) # The index is packed with the tensordict tensor([1, 1, 1, 1, 1, 1, 1, 1, 1, 1])
- update_priority(index: Union[int, torch.Tensor], priority: Union[float, torch.Tensor], *, storage: TensorStorage | None = None) None [source]¶
Updates the priority of the data pointed by the index.
- Parameters:
index (int or torch.Tensor) – indexes of the priorities to be updated.
priority (Number or torch.Tensor) – new priorities of the indexed elements.
- Keyword Arguments:
storage (Storage, optional) – a storage used to map the Nd index size to the 1d size of the sum_tree and min_tree. Only required whenever
index.ndim > 2
.