Fix grad_clip_norm 0 -> 10, Fix normalization min_max to be per channel
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Remi Cadene
parent
cfc304e870
commit
e29fbb50e8
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@ -136,14 +136,14 @@ class PushtExperienceReplay(TensorDictReplayBuffer):
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storage = TensorStorage(TensorDict.load_memmap(self.root / dataset_id))
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stats = self._compute_or_load_stats(storage)
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stats["next", "observation", "image"] = stats["observation", "image"]
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stats["next", "observation", "state"] = stats["observation", "state"]
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transform = NormalizeTransform(
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stats,
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in_keys=[
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# TODO(rcadene): imagenet normalization is applied inside diffusion policy
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# We need to automate this for tdmpc and others
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# ("observation", "image"),
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("observation", "state"),
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# TODO(rcadene): for tdmpc, we might want image and state
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# TODO(rcadene): for tdmpc, we might want next image and state
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# ("next", "observation", "image"),
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# ("next", "observation", "state"),
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("action"),
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@ -151,7 +151,7 @@ class PushtExperienceReplay(TensorDictReplayBuffer):
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mode="min_max",
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)
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# TODO(rcadene): make normalization strategy configurable between mean_std, min_max, min_max_spec
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# TODO(rcadene): make normalization strategy configurable between mean_std, min_max, manual_min_max, min_max_from_spec
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transform.stats["observation", "state", "min"] = torch.tensor(
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[13.456424, 32.938293], dtype=torch.float32
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)
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@ -302,29 +302,43 @@ class PushtExperienceReplay(TensorDictReplayBuffer):
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prefetch=True,
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)
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batch = rb.sample()
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image_mean = torch.zeros(batch["observation", "image"].shape[1])
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image_std = torch.zeros(batch["observation", "image"].shape[1])
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image_max = -math.inf
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image_min = math.inf
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state_mean = torch.zeros(batch["observation", "state"].shape[1])
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state_std = torch.zeros(batch["observation", "state"].shape[1])
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state_max = -math.inf
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state_min = math.inf
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action_mean = torch.zeros(batch["action"].shape[1])
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action_std = torch.zeros(batch["action"].shape[1])
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action_max = -math.inf
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action_min = math.inf
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image_channels = batch["observation", "image"].shape[1]
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image_mean = torch.zeros(image_channels)
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image_std = torch.zeros(image_channels)
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image_max = torch.tensor([-math.inf] * image_channels)
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image_min = torch.tensor([math.inf] * image_channels)
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state_channels = batch["observation", "state"].shape[1]
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state_mean = torch.zeros(state_channels)
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state_std = torch.zeros(state_channels)
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state_max = torch.tensor([-math.inf] * state_channels)
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state_min = torch.tensor([math.inf] * state_channels)
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action_channels = batch["action"].shape[1]
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action_mean = torch.zeros(action_channels)
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action_std = torch.zeros(action_channels)
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action_max = torch.tensor([-math.inf] * action_channels)
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action_min = torch.tensor([math.inf] * action_channels)
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for _ in tqdm.tqdm(range(num_batch)):
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image_mean += einops.reduce(batch["observation", "image"], "b c h w -> c", reduction="mean")
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state_mean += batch["observation", "state"].mean(dim=0)
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action_mean += batch["action"].mean(dim=0)
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image_max = max(image_max, batch["observation", "image"].max().item())
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image_min = min(image_min, batch["observation", "image"].min().item())
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state_max = max(state_max, batch["observation", "state"].max().item())
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state_min = min(state_min, batch["observation", "state"].min().item())
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action_max = max(action_max, batch["action"].max().item())
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action_min = min(action_min, batch["action"].min().item())
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image_mean += einops.reduce(batch["observation", "image"], "b c h w -> c", "mean")
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state_mean += einops.reduce(batch["observation", "state"], "b c -> c", "mean")
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action_mean += einops.reduce(batch["action"], "b c -> c", "mean")
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b_image_max = einops.reduce(batch["observation", "image"], "b c h w -> c", "max")
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b_image_min = einops.reduce(batch["observation", "image"], "b c h w -> c", "min")
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b_state_max = einops.reduce(batch["observation", "state"], "b c -> c", "max")
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b_state_min = einops.reduce(batch["observation", "state"], "b c -> c", "min")
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b_action_max = einops.reduce(batch["action"], "b c -> c", "max")
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b_action_min = einops.reduce(batch["action"], "b c -> c", "min")
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image_max = torch.maximum(image_max, b_image_max)
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image_min = torch.maximum(image_min, b_image_min)
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state_max = torch.maximum(state_max, b_state_max)
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state_min = torch.maximum(state_min, b_state_min)
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action_max = torch.maximum(action_max, b_action_max)
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action_min = torch.maximum(action_min, b_action_min)
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batch = rb.sample()
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image_mean /= num_batch
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@ -332,16 +346,26 @@ class PushtExperienceReplay(TensorDictReplayBuffer):
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action_mean /= num_batch
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for i in tqdm.tqdm(range(num_batch)):
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image_mean_batch = einops.reduce(batch["observation", "image"], "b c h w -> c", reduction="mean")
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image_std += (image_mean_batch - image_mean) ** 2
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state_std += (batch["observation", "state"].mean(dim=0) - state_mean) ** 2
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action_std += (batch["action"].mean(dim=0) - action_mean) ** 2
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image_max = max(image_max, batch["observation", "image"].max().item())
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image_min = min(image_min, batch["observation", "image"].min().item())
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state_max = max(state_max, batch["observation", "state"].max().item())
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state_min = min(state_min, batch["observation", "state"].min().item())
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action_max = max(action_max, batch["action"].max().item())
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action_min = min(action_min, batch["action"].min().item())
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b_image_mean = einops.reduce(batch["observation", "image"], "b c h w -> c", "mean")
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b_state_mean = einops.reduce(batch["observation", "state"], "b c -> c", "mean")
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b_action_mean = einops.reduce(batch["action"], "b c -> c", "mean")
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image_std += (b_image_mean - image_mean) ** 2
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state_std += (b_state_mean - state_mean) ** 2
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action_std += (b_action_mean - action_mean) ** 2
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b_image_max = einops.reduce(batch["observation", "image"], "b c h w -> c", "max")
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b_image_min = einops.reduce(batch["observation", "image"], "b c h w -> c", "min")
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b_state_max = einops.reduce(batch["observation", "state"], "b c -> c", "max")
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b_state_min = einops.reduce(batch["observation", "state"], "b c -> c", "min")
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b_action_max = einops.reduce(batch["action"], "b c -> c", "max")
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b_action_min = einops.reduce(batch["action"], "b c -> c", "min")
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image_max = torch.maximum(image_max, b_image_max)
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image_min = torch.maximum(image_min, b_image_min)
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state_max = torch.maximum(state_max, b_state_max)
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state_min = torch.maximum(state_min, b_state_min)
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action_max = torch.maximum(action_max, b_action_max)
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action_min = torch.maximum(action_min, b_action_min)
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if i < num_batch - 1:
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batch = rb.sample()
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@ -353,19 +377,21 @@ class PushtExperienceReplay(TensorDictReplayBuffer):
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{
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("observation", "image", "mean"): image_mean[None, :, None, None],
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("observation", "image", "std"): image_std[None, :, None, None],
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("observation", "image", "max"): torch.tensor(image_max),
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("observation", "image", "min"): torch.tensor(image_min),
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("observation", "image", "max"): image_max[None, :, None, None],
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("observation", "image", "min"): image_min[None, :, None, None],
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("observation", "state", "mean"): state_mean[None, :],
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("observation", "state", "std"): state_std[None, :],
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("observation", "state", "max"): torch.tensor(state_max),
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("observation", "state", "min"): torch.tensor(state_min),
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("observation", "state", "max"): state_max[None, :],
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("observation", "state", "min"): state_min[None, :],
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("action", "mean"): action_mean[None, :],
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("action", "std"): action_std[None, :],
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("action", "max"): torch.tensor(action_max),
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("action", "min"): torch.tensor(action_min),
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("action", "max"): action_max[None, :],
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("action", "min"): action_min[None, :],
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},
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batch_size=[],
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)
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stats["next", "observation", "image"] = stats["observation", "image"]
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stats["next", "observation", "state"] = stats["observation", "state"]
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return stats
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def _compute_or_load_stats(self, storage) -> TensorDict:
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@ -59,7 +59,7 @@ policy:
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use_ema: true
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lr_scheduler: cosine
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lr_warmup_steps: 500
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grad_clip_norm: 0
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grad_clip_norm: 10
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noise_scheduler:
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_target_: diffusers.schedulers.scheduling_ddpm.DDPMScheduler
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