模型架构
@torch.no_grad() # see openpi `sample_actions` (slightly adapted)
def sample_actions(self, images, img_masks, tokens, masks, noise=None, num_steps=None) -> Tensor:
"""Do a full inference forward and compute the action."""
if num_steps is None:
num_steps = self.config.num_inference_steps
bsize = tokens.shape[0]
device = tokens.device
if noise is None:
# Sample noise with padded dimension as expected by action_in_proj
actions_shape = (
bsize,
self.config.chunk_size,
self.config.max_action_dim,
) # Use config max_action_dim for internal processing
noise = self.sample_noise(actions_shape, device)
prefix_embs, prefix_pad_masks, prefix_att_masks = self.embed_prefix(images, img_masks, tokens, masks)
prefix_att_2d_masks = make_att_2d_masks(prefix_pad_masks, prefix_att_masks)
prefix_position_ids = torch.cumsum(prefix_pad_masks, dim=1) - 1
prefix_att_2d_masks_4d = self._prepare_attention_masks_4d(prefix_att_2d_masks)
self.paligemma_with_expert.paligemma.language_model.config._attn_implementation = "eager" # noqa: SLF001
_, past_key_values = self.paligemma_with_expert.forward(
attention_mask=prefix_att_2d_masks_4d,
position_ids=prefix_position_ids,
past_key_values=None,
inputs_embeds=[prefix_embs, None],
use_cache=True,
)
dt = -1.0 / num_steps
dt = torch.tensor(dt, dtype=torch.float32, device=device)
x_t = noise
time = torch.tensor(1.0, dtype=torch.float32, device=device)
while time >= -dt / 2:
expanded_time = time.expand(bsize)
v_t = self.denoise_step(
prefix_pad_masks,
past_key_values,
x_t,
expanded_time,
)
x_t = x_t + dt * v_t
time += dt
return x_t也就是observation、joint信息和instruction通过了PaliGemma,传入动作专家就生成了目标动作,加上了一些mask填充画面。这就是整个interface的流程。
大部分详细细节在函数定义中,到推理这步已经进行了相当程度的抽象。就目前的“适配G1”的目标来说,先详细查看
embed_prefix中 state 的处理方式- 配置文件 里 action 相关的参数
select_action或类似的推理入口函数,看完整的输入输出格式
embed_prefix
def embed_prefix(
self, images, img_masks, tokens, masks
) -> tuple[torch.Tensor, torch.Tensor, torch.Tensor]:
"""Embed images with SigLIP and language tokens with embedding layer."""
embs = []
pad_masks = []
att_masks = []
# Process images
for img, img_mask in zip(images, img_masks, strict=True):
def image_embed_func(img):
return self.paligemma_with_expert.embed_image(img)
img_emb = self._apply_checkpoint(image_embed_func, img)
bsize, num_img_embs = img_emb.shape[:2]
embs.append(img_emb)
pad_masks.append(img_mask[:, None].expand(bsize, num_img_embs))
att_masks += [0] * num_img_embs
# Process language tokens
def lang_embed_func(tokens):
lang_emb = self.paligemma_with_expert.embed_language_tokens(tokens)
lang_emb_dim = lang_emb.shape[-1]
return lang_emb * math.sqrt(lang_emb_dim)
lang_emb = self._apply_checkpoint(lang_embed_func, tokens)
embs.append(lang_emb)
pad_masks.append(masks)
num_lang_embs = lang_emb.shape[1]
att_masks += [0] * num_lang_embs
embs = torch.cat(embs, dim=1)
pad_masks = torch.cat(pad_masks, dim=1)
att_masks = torch.tensor(att_masks, dtype=torch.bool, device=pad_masks.device)
bsize = pad_masks.shape[0]
att_masks = att_masks[None, :].expand(bsize, len(att_masks))
return embs, pad_masks, att_masks这个函数是把 图像 + 语言指令 编码成统一的 embedding 序列,作为后续 Action Expert 的条件输入