mirror of
https://github.com/gpt-omni/mini-omni
synced 2024-11-25 13:35:20 +00:00
796 lines
24 KiB
Python
796 lines
24 KiB
Python
# Copyright Lightning AI. Licensed under the Apache License 2.0, see LICENSE file.
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from typing import Any, Literal, Optional
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import torch
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# import torch._dynamo.config
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# import torch._inductor.config
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from litgpt.model import GPT
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from utils.snac_utils import layershift, snac_config
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from tqdm import tqdm
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def multinomial_num_samples_1(probs: torch.Tensor) -> torch.Tensor:
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if torch._dynamo.is_compiling():
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# Faster alternative to `torch.multinomial(probs, num_samples=1)` that is also CUDAGraph friendly
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distribution = torch.empty_like(probs).exponential_(1)
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return torch.argmax(probs / distribution, dim=-1, keepdim=True)
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return torch.multinomial(probs, num_samples=1)
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def sample_top_p(logits_A: torch.Tensor, top_p: float) -> torch.Tensor:
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sorted_logits, sorted_indices = torch.sort(logits, descending=False)
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cumulative_probs = sorted_logits.softmax(dim=-1).cumsum(dim=-1)
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# Example:
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# sorted_probs=[0.1, 0.15, 0.2, 0.25, 0.3] -> sorted_cumprobs=[0.1, 0.25, 0.45, 0.7, 1.0]
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# sorted_indices_to_remove = [1, 1, 0, 0, 0] if top_p=0.7
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sorted_indices_to_remove = cumulative_probs <= (1 - top_p)
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# Keep at least 1 token always to prevent the case where no token is selected
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# In this case the most probable one is always kept
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sorted_indices_to_remove[-1:] = 0
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indices_to_remove = sorted_indices_to_remove.scatter(
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0, sorted_indices, sorted_indices_to_remove
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)
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logits = logits.masked_fill(indices_to_remove, float("-inf"))
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return logits
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def sample(
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logits: torch.Tensor,
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temperature: float = 1.0,
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top_k: Optional[int] = None,
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top_p: float = 1.0,
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) -> torch.Tensor:
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if top_p < 0.0 or top_p > 1.0:
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raise ValueError(f"top_p must be in [0, 1], got {top_p}")
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logits = logits[0, -1]
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# optionally crop the logits to only the top k options
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if top_k is not None:
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v, i = torch.topk(logits, min(top_k, logits.size(-1)))
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# do not use `torch.where` as in nanogpt because it will repeat top-k collisions
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logits = torch.full_like(logits, float("-inf")).scatter_(-1, i, v)
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# optionally scale the logits and sample from a probability distribution
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if temperature > 0.0 or top_p > 0.0:
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if temperature > 0.0:
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logits = logits / temperature
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# optionally crop the logits to smallest set of logits with a cumulative probability above top_p
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if top_p < 1.0:
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logits = sample_top_p(logits, top_p)
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probs = torch.nn.functional.softmax(logits, dim=-1)
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return multinomial_num_samples_1(probs)
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return torch.argmax(logits, dim=-1, keepdim=True)
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def next_token(
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model: GPT, input_pos: torch.Tensor, x: list, **kwargs: Any
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) -> torch.Tensor:
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input_pos = input_pos.to(model.device)
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logits_a, logit_t = model(x, input_pos)
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next_audio_tokens = []
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for logit_a in logits_a:
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next_a = sample(logit_a, **kwargs).to(dtype=x[0].dtype)
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next_audio_tokens.append(next_a)
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next_t = sample(logit_t, **kwargs).to(dtype=x[0].dtype)
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return next_audio_tokens, next_t
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def next_token_asr(
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model: GPT,
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input_pos: torch.Tensor,
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audio_features: torch.tensor,
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lens: int,
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input_ids: list,
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**kwargs: Any,
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) -> torch.Tensor:
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input_pos = input_pos.to(model.device)
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input_ids = [input_id.to(model.device) for input_id in input_ids]
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logits_a, logit_t = model(audio_features, input_ids, input_pos, whisper_lens=lens)
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next_audio_tokens = []
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for logit_a in logits_a:
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next_a = sample(logit_a, **kwargs).to(dtype=input_ids[0].dtype)
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next_audio_tokens.append(next_a)
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next_t = sample(logit_t, **kwargs).to(dtype=input_ids[0].dtype)
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return next_audio_tokens, next_t
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def next_token_A1T2(
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model: GPT,
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audio_features: torch.tensor,
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input_ids: list,
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whisper_lens: int,
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task: list,
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input_pos: torch.Tensor,
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**kwargs: Any,
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) -> torch.Tensor:
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input_pos = input_pos.to(model.device)
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input_ids = [input_id.to(model.device) for input_id in input_ids]
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logits_a, logit_t = model(
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audio_features, input_ids, input_pos, whisper_lens=whisper_lens, task=task
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)
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next_audio_tokens = []
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for logit_a in logits_a:
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next_a = sample(logit_a, **kwargs).to(dtype=input_ids[0].dtype)
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next_audio_tokens.append(next_a)
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next_t = sample(logit_t, **kwargs).to(dtype=input_ids[0].dtype)
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return next_audio_tokens, next_t
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def next_token_A1T1(
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model: GPT,
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audio_features: torch.tensor,
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input_ids: list,
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whisper_lens: int,
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task: list,
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input_pos: torch.Tensor,
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**kwargs: Any,
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) -> torch.Tensor:
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input_pos = input_pos.to(model.device)
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input_ids = [input_id.to(model.device) for input_id in input_ids]
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logits_a, logit_t = model(
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audio_features, input_ids, input_pos, whisper_lens=whisper_lens, task=task
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)
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next_t = sample(logit_t, **kwargs).to(dtype=input_ids[0].dtype)
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return next_t
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def next_token_batch(
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model: GPT,
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audio_features: torch.tensor,
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input_ids: list,
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whisper_lens: int,
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task: list,
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input_pos: torch.Tensor,
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**kwargs: Any,
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) -> torch.Tensor:
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input_pos = input_pos.to(model.device)
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input_ids = [input_id.to(model.device) for input_id in input_ids]
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logits_a, logit_t = model(
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audio_features, input_ids, input_pos, whisper_lens=whisper_lens, task=task
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)
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for i in range(7):
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logits_a[i] = logits_a[i][0].unsqueeze(0)
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logit_t = logit_t[1].unsqueeze(0)
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next_audio_tokens = []
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for logit_a in logits_a:
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next_a = sample(logit_a, **kwargs).to(dtype=input_ids[0].dtype)
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next_audio_tokens.append(next_a)
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next_t = sample(logit_t, **kwargs).to(dtype=input_ids[0].dtype)
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return next_audio_tokens, next_t
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# torch._dynamo.config.automatic_dynamic_shapes = True
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# torch._inductor.config.triton.unique_kernel_names = True
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# torch._inductor.config.coordinate_descent_tuning = True
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# next_token = torch.compile(next_token, mode="reduce-overhead")
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@torch.inference_mode()
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def generate(
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model: GPT,
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input_ids: list,
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max_returned_tokens: int,
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*,
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temperature: float = 1.0,
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top_k: Optional[int] = None,
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top_p: float = 1.0,
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eos_id_a: Optional[int] = None,
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eos_id_t: Optional[int] = None,
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pad_id: Optional[int] = None,
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shift: Optional[int] = None,
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include_prompt: bool = True,
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generate_text=False,
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) -> torch.Tensor:
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# print("eos_id_a:", eos_id_a)
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# print("eos_id_t:", eos_id_t)
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# print("pad_id:", pad_id)
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"""
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Takes a conditioning sequence (prompt) as input and continues to generate as many tokens as requested.
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The implementation of this function is modified from A. Karpathy's nanoGPT.
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Args:
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model: The model to use.
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prompt: Tensor of shape (T) with indices of the prompt sequence.
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max_returned_tokens: The maximum number of tokens to return (given plus generated).
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temperature: Scales the predicted logits by 1 / temperature.
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top_k: If specified, only sample among the tokens with the k highest probabilities.
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top_p: If specified, it represents the cumulative probability threshold to consider in the sampling process.
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In top-p sampling, the next token is sampled from the highest probability tokens
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whose cumulative probability exceeds the threshold `top_p`. When specified,
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it must be `0 <= top_p <= 1`. Here, `top_p=0` is equivalent
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to sampling the most probable token, while `top_p=1` samples from the whole distribution.
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It can be used in conjunction with `top_k` and `temperature` with the following order
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of application:
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1. `top_k` sampling
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2. `temperature` scaling
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3. `top_p` sampling
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For more details, see https://arxiv.org/abs/1904.09751
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or https://huyenchip.com/2024/01/16/sampling.html#top_p
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eos_id: If specified, stop generating any more token once the <eos> token is triggered.
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include_prompt: If true (default) prepends the prompt (after applying the prompt style) to the output.
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"""
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T = input_ids[0].size(0)
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device = input_ids[0].device
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assert max_returned_tokens > T
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if model.max_seq_length < max_returned_tokens - 1:
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# rolling the kv cache based on the `input_pos` value would be necessary. However, doing so would introduce a
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# data dependency on the `input_pos` tensor and impact model compilation. Since this setting is uncommon, we do
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# not support it to avoid negatively impacting the overall speed
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raise NotImplementedError(
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f"max_seq_length {model.max_seq_length} needs to be >= {max_returned_tokens - 1}"
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)
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for input_id in input_ids:
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input_id = [input_id]
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(
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tokens_A1,
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tokens_A2,
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tokens_A3,
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tokens_A4,
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tokens_A5,
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tokens_A6,
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tokens_A7,
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tokens_T,
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) = input_ids
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tokens_A1_output = [tokens_A1]
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tokens_A2_output = [tokens_A2]
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tokens_A3_output = [tokens_A3]
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tokens_A4_output = [tokens_A4]
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tokens_A5_output = [tokens_A5]
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tokens_A6_output = [tokens_A6]
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tokens_A7_output = [tokens_A7]
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tokens_T_output = [tokens_T]
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list_output = [
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tokens_A1_output,
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tokens_A2_output,
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tokens_A3_output,
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tokens_A4_output,
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tokens_A5_output,
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tokens_A6_output,
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tokens_A7_output,
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tokens_T_output,
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]
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input_pos = torch.tensor([T], device=device)
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model_input_ids = [
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tokens_A1.view(1, -1),
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tokens_A2.view(1, -1),
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tokens_A3.view(1, -1),
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tokens_A4.view(1, -1),
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tokens_A5.view(1, -1),
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tokens_A6.view(1, -1),
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tokens_A7.view(1, -1),
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tokens_T.view(1, -1),
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]
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tokens_A, token_T = next_token(
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model,
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torch.arange(0, T, device=device),
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model_input_ids,
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temperature=temperature,
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top_k=top_k,
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top_p=top_p,
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)
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for i in range(7):
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list_output[i].append(tokens_A[i].clone())
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list_output[7].append(token_T.clone())
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# prepare the input for the next iteration
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for i in range(7):
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tokens_A[i] = tokens_A[i].clone() + shift + i * snac_config.padded_vocab_size
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token_T = token_T.clone()
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text_end = False
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max_returned_tokens = 1000
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for _ in tqdm(range(2, max_returned_tokens - T + 1)):
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model_input_ids = [
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token_a.view(1, -1).to(torch.int32) for token_a in tokens_A
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] + [token_T.view(1, -1).to(torch.int32)]
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tokens_A, token_T = next_token(
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model,
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input_pos,
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model_input_ids,
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temperature=temperature,
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top_k=top_k,
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top_p=top_p,
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)
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if text_end:
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token_T = torch.tensor([pad_id], device=device)
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for i in range(7):
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list_output[i].append(tokens_A[i].clone())
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list_output[7].append(token_T.clone())
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if tokens_A[-1] == eos_id_a:
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break
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if token_T == eos_id_t:
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if generate_text:
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break
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text_end = True
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for i in range(7):
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tokens_A[i] = tokens_A[i].clone() + shift + i * snac_config.padded_vocab_size
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token_T = token_T.clone()
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input_pos = input_pos.add_(1)
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for i in range(len(list_output)):
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list_output[i] = torch.cat(list_output[i])
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return list_output
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@torch.inference_mode()
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def generate_TA_BATCH(
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model: GPT,
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audio_features: torch.Tensor,
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input_ids: list,
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leng,
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task,
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max_returned_tokens: int = 1000,
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*,
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temperature: float = 1.0,
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top_k: Optional[int] = None,
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top_p: float = 1.0,
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eos_id_a: Optional[int] = None,
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eos_id_t: Optional[int] = None,
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pad_id_t: Optional[int] = None,
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shift: Optional[int] = None,
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include_prompt: bool = True,
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generate_text=False,
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) -> torch.Tensor:
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T = input_ids[0].size(1)
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device = input_ids[0].device
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assert max_returned_tokens > T
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if model.max_seq_length < max_returned_tokens - 1:
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raise NotImplementedError(
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f"max_seq_length {model.max_seq_length} needs to be >= {max_returned_tokens - 1}"
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)
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input_pos = torch.tensor([T], device=device)
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model_input_ids = input_ids
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list_output = [[] for i in range(8)]
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tokens_A, token_T = next_token_batch(
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model,
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audio_features.to(torch.float32).to(model.device),
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input_ids,
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[T - 3, T - 3],
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["A1T2", "A1T2"],
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input_pos=torch.arange(0, T, device=device),
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temperature=temperature,
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top_k=top_k,
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top_p=top_p,
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)
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for i in range(7):
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list_output[i].append(tokens_A[i].tolist()[0])
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list_output[7].append(token_T.tolist()[0])
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model_input_ids = [[] for i in range(8)]
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for i in range(7):
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tokens_A[i] = tokens_A[i].clone() + shift + i * snac_config.padded_vocab_size
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model_input_ids[i].append(tokens_A[i].clone().to(device).to(torch.int32))
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model_input_ids[i].append(torch.tensor([layershift(snac_config.end_of_audio, i)], device=device))
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model_input_ids[i] = torch.stack(model_input_ids[i])
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model_input_ids[-1].append(token_T.clone().to(torch.int32))
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model_input_ids[-1].append(token_T.clone().to(torch.int32))
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model_input_ids[-1] = torch.stack(model_input_ids[-1])
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text_end = False
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for _ in range(2, max_returned_tokens - T + 1):
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tokens_A, token_T = next_token_batch(
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model,
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None,
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model_input_ids,
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None,
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None,
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input_pos=input_pos,
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temperature=temperature,
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top_k=top_k,
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top_p=top_p,
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)
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if text_end:
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token_T = torch.tensor([pad_id_t], device=device)
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if tokens_A[-1] == eos_id_a:
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break
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if token_T == eos_id_t:
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text_end = True
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for i in range(7):
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list_output[i].append(tokens_A[i].tolist()[0])
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list_output[7].append(token_T.tolist()[0])
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model_input_ids = [[] for i in range(8)]
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for i in range(7):
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tokens_A[i] = tokens_A[i].clone() + shift + i * snac_config.padded_vocab_size
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model_input_ids[i].append(tokens_A[i].clone().to(device).to(torch.int32))
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model_input_ids[i].append(
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torch.tensor([layershift(snac_config.end_of_audio, i)], device=device)
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)
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model_input_ids[i] = torch.stack(model_input_ids[i])
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model_input_ids[-1].append(token_T.clone().to(torch.int32))
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model_input_ids[-1].append(token_T.clone().to(torch.int32))
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model_input_ids[-1] = torch.stack(model_input_ids[-1])
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input_pos = input_pos.add_(1)
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return list_output
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@torch.inference_mode()
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def generate_TT(
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model: GPT,
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audio_features: torch.Tensor,
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input_ids: list,
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leng,
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task,
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max_returned_tokens: int = 2048,
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*,
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temperature: float = 1.0,
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top_k: Optional[int] = None,
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top_p: float = 1.0,
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eos_id_a: Optional[int] = None,
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eos_id_t: Optional[int] = None,
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pad_id_t: Optional[int] = None,
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shift: Optional[int] = None,
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include_prompt: bool = True,
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generate_text=False,
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) -> torch.Tensor:
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T = input_ids[0].size(1)
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device = input_ids[0].device
|
|
|
|
output = []
|
|
token_T = next_token_A1T1(
|
|
model,
|
|
None,
|
|
input_ids,
|
|
None,
|
|
None,
|
|
input_pos=torch.arange(0, T, device=device),
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
|
|
output.append(token_T.clone().tolist()[0])
|
|
input_pos = torch.tensor([T], device=device)
|
|
|
|
for _ in tqdm(range(2, max_returned_tokens - T + 1)):
|
|
model_input_ids = []
|
|
for i in range(7):
|
|
model_input_ids.append(
|
|
torch.tensor([layershift(snac_config.end_of_audio, i)])
|
|
.view(1, -1)
|
|
.to(torch.int32)
|
|
.to(device)
|
|
)
|
|
model_input_ids.append(token_T.clone().view(1, -1).to(torch.int32).to(device))
|
|
token_T = next_token_A1T1(
|
|
model,
|
|
None,
|
|
model_input_ids,
|
|
None,
|
|
None,
|
|
input_pos=input_pos,
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
if token_T == eos_id_t:
|
|
break
|
|
output.append(token_T.clone().tolist()[0])
|
|
input_pos = input_pos.add_(1)
|
|
return output
|
|
|
|
|
|
@torch.inference_mode()
|
|
def generate_AT(
|
|
model: GPT,
|
|
audio_features: torch.Tensor,
|
|
input_ids: list,
|
|
leng,
|
|
task,
|
|
max_returned_tokens: int = 2048,
|
|
*,
|
|
temperature: float = 1.0,
|
|
top_k: Optional[int] = None,
|
|
top_p: float = 1.0,
|
|
eos_id_a: Optional[int] = None,
|
|
eos_id_t: Optional[int] = None,
|
|
pad_id_t: Optional[int] = None,
|
|
shift: Optional[int] = None,
|
|
include_prompt: bool = True,
|
|
generate_text=False,
|
|
) -> torch.Tensor:
|
|
|
|
T = input_ids[0].size(1)
|
|
device = input_ids[0].device
|
|
|
|
output = []
|
|
token_T = next_token_A1T1(
|
|
model,
|
|
audio_features.to(torch.float32).to(model.device),
|
|
input_ids,
|
|
[T - 3],
|
|
["AT"],
|
|
input_pos=torch.arange(0, T, device=device),
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
output.append(token_T.clone().tolist()[0])
|
|
input_pos = torch.tensor([T], device=device)
|
|
text_end = False
|
|
for _ in tqdm(range(2, max_returned_tokens - T + 1)):
|
|
model_input_ids = []
|
|
for i in range(7):
|
|
model_input_ids.append(
|
|
torch.tensor([layershift(snac_config.end_of_audio, i)])
|
|
.view(1, -1)
|
|
.to(torch.int32)
|
|
.to(device)
|
|
)
|
|
model_input_ids.append(token_T.clone().view(1, -1).to(torch.int32).to(device))
|
|
token_T = next_token_A1T1(
|
|
model,
|
|
None,
|
|
model_input_ids,
|
|
None,
|
|
None,
|
|
input_pos=input_pos,
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
if token_T == eos_id_t:
|
|
break
|
|
output.append(token_T.clone().tolist()[0])
|
|
input_pos = input_pos.add_(1)
|
|
return output
|
|
|
|
|
|
@torch.inference_mode()
|
|
def generate_TA(
|
|
model: GPT,
|
|
audio_features: torch.Tensor,
|
|
input_ids: list,
|
|
leng,
|
|
task,
|
|
max_returned_tokens: int = 2048,
|
|
*,
|
|
temperature: float = 1.0,
|
|
top_k: Optional[int] = None,
|
|
top_p: float = 1.0,
|
|
eos_id_a: Optional[int] = None,
|
|
eos_id_t: Optional[int] = None,
|
|
pad_id_t: Optional[int] = None,
|
|
shift: Optional[int] = None,
|
|
include_prompt: bool = True,
|
|
generate_text=False,
|
|
) -> torch.Tensor:
|
|
|
|
T = input_ids[0].size(1)
|
|
device = input_ids[0].device
|
|
|
|
output = [[] for _ in range(8)]
|
|
tokens_A, token_T = next_token_A1T2(
|
|
model,
|
|
None,
|
|
input_ids,
|
|
None,
|
|
None,
|
|
input_pos=torch.arange(0, T, device=device),
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
for i in range(7):
|
|
output[i].append(tokens_A[i].clone().tolist()[0])
|
|
output[7].append(token_T.clone().tolist()[0])
|
|
|
|
input_pos = torch.tensor([T], device=device)
|
|
text_end = False
|
|
for _ in tqdm(range(2, max_returned_tokens - T + 1)):
|
|
|
|
model_input_ids = []
|
|
for i in range(7):
|
|
model_input_ids.append(
|
|
layershift(tokens_A[i].clone(), i)
|
|
.view(1, -1)
|
|
.to(torch.int32)
|
|
.to(device)
|
|
)
|
|
model_input_ids.append(token_T.clone().view(1, -1).to(torch.int32).to(device))
|
|
|
|
tokens_A, token_T = next_token_A1T2(
|
|
model,
|
|
None,
|
|
model_input_ids,
|
|
None,
|
|
None,
|
|
input_pos=input_pos,
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
|
|
if text_end:
|
|
token_T = torch.tensor([pad_id_t], device=device)
|
|
|
|
if tokens_A[-1] == eos_id_a:
|
|
break
|
|
|
|
if token_T == eos_id_t:
|
|
text_end = True
|
|
|
|
for i in range(7):
|
|
output[i].append(tokens_A[i].clone().tolist()[0])
|
|
output[7].append(token_T.clone().tolist()[0])
|
|
input_pos = input_pos.add_(1)
|
|
|
|
return output
|
|
|
|
|
|
@torch.inference_mode()
|
|
def generate_AA(
|
|
model: GPT,
|
|
audio_features: torch.Tensor,
|
|
input_ids: list,
|
|
leng,
|
|
task,
|
|
max_returned_tokens: int = 2048,
|
|
*,
|
|
temperature: float = 1.0,
|
|
top_k: Optional[int] = None,
|
|
top_p: float = 1.0,
|
|
eos_id_a: Optional[int] = None,
|
|
eos_id_t: Optional[int] = None,
|
|
pad_id_t: Optional[int] = None,
|
|
shift: Optional[int] = None,
|
|
include_prompt: bool = True,
|
|
generate_text=False,
|
|
) -> torch.Tensor:
|
|
|
|
T = input_ids[0].size(1)
|
|
device = input_ids[0].device
|
|
|
|
output = [[] for _ in range(8)]
|
|
tokens_A, token_T = next_token_A1T2(
|
|
model,
|
|
audio_features.to(torch.float32).to(model.device),
|
|
input_ids,
|
|
[T - 3],
|
|
["A1T2"],
|
|
input_pos=torch.arange(0, T, device=device),
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
for i in range(7):
|
|
output[i].append(tokens_A[i].clone().tolist()[0])
|
|
output[7].append(token_T.clone().tolist()[0])
|
|
|
|
input_pos = torch.tensor([T], device=device)
|
|
|
|
text_end = False
|
|
for _ in tqdm(range(2, max_returned_tokens - T + 1)):
|
|
|
|
model_input_ids = []
|
|
for i in range(7):
|
|
model_input_ids.append(
|
|
layershift(tokens_A[i].clone(), i)
|
|
.view(1, -1)
|
|
.to(torch.int32)
|
|
.to(device)
|
|
)
|
|
model_input_ids.append(token_T.clone().view(1, -1).to(torch.int32).to(device))
|
|
|
|
tokens_A, token_T = next_token_A1T2(
|
|
model,
|
|
None,
|
|
model_input_ids,
|
|
None,
|
|
None,
|
|
input_pos=input_pos,
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
|
|
if text_end:
|
|
token_T = torch.tensor([pad_id_t], device=device)
|
|
|
|
if tokens_A[-1] == eos_id_a:
|
|
break
|
|
if token_T == eos_id_t:
|
|
# print("text_end")
|
|
text_end = True
|
|
|
|
for i in range(7):
|
|
output[i].append(tokens_A[i].clone().tolist()[0])
|
|
output[7].append(token_T.clone().tolist()[0])
|
|
input_pos = input_pos.add_(1)
|
|
|
|
return output
|
|
|
|
|
|
@torch.inference_mode()
|
|
def generate_ASR(
|
|
model: GPT,
|
|
audio_features: torch.Tensor,
|
|
input_ids: list,
|
|
leng,
|
|
task,
|
|
max_returned_tokens: int = 1200,
|
|
*,
|
|
temperature: float = 1.0,
|
|
top_k: Optional[int] = None,
|
|
top_p: float = 1.0,
|
|
eos_id_a: Optional[int] = None,
|
|
eos_id_t: Optional[int] = None,
|
|
pad_id_t: Optional[int] = None,
|
|
shift: Optional[int] = None,
|
|
include_prompt: bool = True,
|
|
generate_text=False,
|
|
) -> torch.Tensor:
|
|
|
|
T = input_ids[0].size(1)
|
|
device = input_ids[0].device
|
|
output = []
|
|
token_T = next_token_A1T1(
|
|
model,
|
|
audio_features.to(torch.float32).to(model.device),
|
|
input_ids,
|
|
[T - 3],
|
|
["asr"],
|
|
input_pos=torch.arange(0, T, device=device),
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
output.append(token_T.clone().tolist()[0])
|
|
input_pos = torch.tensor([T], device=device)
|
|
text_end = False
|
|
for _ in tqdm(range(2, max_returned_tokens - T + 1)):
|
|
model_input_ids = []
|
|
for i in range(7):
|
|
model_input_ids.append(
|
|
torch.tensor([layershift(snac_config.end_of_audio, i)])
|
|
.view(1, -1)
|
|
.to(torch.int32)
|
|
.to(device)
|
|
)
|
|
model_input_ids.append(token_T.clone().view(1, -1).to(torch.int32).to(device))
|
|
token_T = next_token_A1T1(
|
|
model,
|
|
None,
|
|
model_input_ids,
|
|
None,
|
|
None,
|
|
input_pos=input_pos,
|
|
temperature=temperature,
|
|
top_k=top_k,
|
|
top_p=top_p,
|
|
)
|
|
if token_T == eos_id_t:
|
|
break
|
|
output.append(token_T.clone().tolist()[0])
|
|
input_pos = input_pos.add_(1)
|
|
return output
|