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The main body of the ASR model,
User: <Speech> <Prompt>
Model: <Transcription>
"""
import torch
import torch.nn as nn
from transformers import LlamaForCausalLM, LlamaTokenizer
from typing import List
try:
from .speech_encoder import SpeechEncoder
except ImportError:
from speech_encoder import SpeechEncoder
from transformers import AutoModelForCausalLM, AutoTokenizer
from .model import RWKV
# from .lora import LinearWithLoRA
import pytorch_lightning as pl
from torch.nn import functional as F
from pytorch_lightning.strategies import DeepSpeedStrategy
import os, math, gc, importlib
if importlib.util.find_spec('deepspeed'):
import deepspeed
from deepspeed.ops.adam import DeepSpeedCPUAdam, FusedAdam
import time
class L2Wrap(torch.autograd.Function):
@staticmethod
def forward(ctx, loss, y):
ctx.save_for_backward(y)
return loss
@staticmethod
def backward(ctx, grad_output):
y = ctx.saved_tensors[0]
# to encourage the logits to be close to 0
factor = 1e-4 / (y.shape[0] * y.shape[1])
maxx, ids = torch.max(y, -1, keepdim=True)
gy = torch.zeros_like(y)
gy.scatter_(-1, ids, maxx * factor)
return (grad_output, gy)
class SLAM_ASR(pl.LightningModule):
def __init__(
self,
args,
speech_encoder_model_id,#facebook/hubert-base-ls960
language_model,
downsample_K=5,
hidden_dim=2048,
train_mode="adapter",
device="cuda",
token = "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",
):
assert train_mode in ["adapter", "full"]
super().__init__()
self.args = args
self._device = device
self.language_tokenizer = AutoTokenizer.from_pretrained("RWKV/rwkv-6-world-1b6",trust_remote_code=True)
########################################换成RWKV-PEFT的模型结构
self.language_model = language_model
#########################################
language_project_dim = args.n_embd
#3B language_project_dim = 2560
#7B language_project_dim = 4096
self.speech_encoder = SpeechEncoder(
speech_encoder_model_id,
language_project_dim,
downsample_K=downsample_K,
hidden_dim=hidden_dim,
train_mode=train_mode,
device=device,
).to(self._device)
self.set_gradient(train_mode,'state')
def gradient_checkpointing_enable(self, **kwargs):
self.language_model.gradient_checkpointing_enable(**kwargs)
def set_gradient(self, train_mode,tuning):
assert train_mode in ["adapter", "full"]
# call set_gradient for speech encoder
self.speech_encoder.set_gradient(train_mode)
print("Parameters that require grad:")
for name, param in self.named_parameters():
if param.requires_grad:
print(f" {name}: {param.shape}")
def remove_padding(self, x, mask):
#根据mask去除speech_output的padding部分
x_no_padding = []
# 对于每一个样本和对应的掩码
for x_i, mask_i in zip(x, mask):
# 使用掩码来选择非填充部分
x_i_no_padding = x_i[mask_i.bool()]
# 将结果添加到列表中
x_no_padding.append(x_i_no_padding)
return x_no_padding
def concatenate_audio_transcription(self, audio, transcription):
#将两个二维/三维向量在第二维度拼起来
result = []
for sublist1, sublist2 in zip(audio, transcription):
sub_result = torch.cat((sublist1 ,sublist2), dim=0)
result.append(sub_result)
return result
def _prepare_input_embeds(
self, audios: List[float], transcriptions: List[str] = None
):
"""
First, run audios through speech_encoder to get the embeddings and mask
"""
speech_output, mask = self.speech_encoder(audios)
mask = mask.to(self._device)
if transcriptions is not None:
###########处理prompt_embed ###############################################################################
#去除speech padding
audio_no_padding = self.remove_padding(speech_output,mask)
#在speech结尾添加end of audio:#
end_of_audio = self.language_tokenizer(
"#",
return_tensors="pt",
).to(self.device)
with torch.no_grad():
end_of_audio = self.language_model.embed(end_of_audio.input_ids)
audio_no_padding_eoa = []
for t in audio_no_padding:
t = torch.cat((t, end_of_audio.squeeze(0)))
audio_no_padding_eoa.append(t)
#audio mask 左边添加1
ones = torch.ones(mask.size(0), 1).to(self._device)
mask =torch.cat((ones, mask), dim=1)
#处理transcription,得到embeded label
_labels = self.language_tokenizer(
transcriptions,
return_tensors="pt",
padding=True,
truncation=True,
add_special_tokens=False,
).to(self.device)
with torch.no_grad():
# labels_embeds = self.language_model.rwkv.get_input_embeddings()(_labels.input_ids)
labels_embeds = self.language_model.embed(_labels.input_ids)
att3 = _labels.attention_mask
#拼接speech和label
audio_label = self.concatenate_audio_transcription(audio_no_padding_eoa , labels_embeds)
# print(f"concatenated inputs:\t{len(audio_label)}-{[len(x) for x in audio_label]}")
#对拼接后的内容进行padding
max_seq = max([len(x) for x in audio_label])
for i, x in enumerate(audio_label):
times = max_seq - len(x)
for _ in range(times):
x = torch.cat((x,x[len(x)-1].unsqueeze(0)))
audio_label[i] = x
# print(f"padded inputs:\t{len(audio_label)}-{[len(x) for x in audio_label]}")
#转换成tensor
audio_label = torch.stack(audio_label)
# print(f"padded inputs tensor:\t{audio_label.shape}")
prompt_embed = audio_label
# print()
#####处理prompt_mask ##################################################
# 剔除audio mask 右边的0
mask_no_zero = []
for mask_i in mask:
mask_i_no_zero = mask_i[mask_i != 0]
mask_no_zero.append(mask_i_no_zero)
# 将audio mask和transcription mask 拼接
mask_concatenate = self.concatenate_audio_transcription(mask_no_zero, att3)
#向mask 填充0
max_mask = max([len(x) for x in mask_concatenate])
for i, x in enumerate(mask_concatenate):
times = max_mask - len(x)
for _ in range(times):
x = torch.cat((x,torch.tensor([0]).to(self.device)))
mask_concatenate[i] = x
#转换成tensor
mask_concatenate = torch.stack(mask_concatenate)
prompt_mask = mask_concatenate
# #########处理loss mask #####################################################
# import torch.nn.functional as F
# loss_mask = []
# for t in mask_no_zero:
# pad_len = max_mask - len(t)
# pad = F.pad(t, (0, pad_len), "constant", 0)
# loss_mask.append(pad)
# loss_mask = torch.stack(loss_mask)
# loss_mask = prompt_mask - loss_mask
# print(f"loss mask:\t{loss_mask.shape}")
#########处理true_labels ###################################################
# print()
# 为transcription 结尾添加 end of sentence:<s>
transcriptions_eos = []
for starr in transcriptions:
starr = starr + "<s>"
transcriptions_eos.append(starr)
_labels = self.language_tokenizer(
transcriptions_eos,
return_tensors="pt",
padding=True,
truncation=True,
add_special_tokens=False,
).to(self.device)
true_labels = _labels.input_ids
#在ture label左侧填充audio 长度的-100, 同时在右侧填充-100使batch对齐
padded_labels = []
for i,t in enumerate(true_labels):
back_padding = max_mask - t.shape[0] - audio_no_padding[i].shape[0]
t = torch.cat(
[
torch.full(
(audio_no_padding[i].shape[0], ),
-100,
dtype=torch.long,
device=self.device,
),
t,
torch.full(
(back_padding, ),
-100,
dtype=torch.long,
device=self.device,
),
]
)
padded_labels.append(t)
padded_labels = torch.stack(padded_labels)
true_labels = padded_labels
else:
end_of_audio = self.language_tokenizer(
"#",
return_tensors="pt",
).to(self.device)
with torch.no_grad():
end_of_audio = self.language_model.embed(end_of_audio.input_ids)
# print(f"speech output:{speech_output.shape}")
# print(f"end_of_audio:{end_of_audio.shape}")
# exit(0)
speech_output = torch.cat((speech_output, end_of_audio), dim= 1)
prompt_embed = speech_output
prompt_mask = mask
true_labels = None
return prompt_embed, prompt_mask, true_labels
def forward(self, audios: List[float], transcriptions: List[str] = None):
prompt_embed, prompt_mask, true_labels = self._prepare_input_embeds(
audios, transcriptions
)
outputs = self.language_model(inputs_embeds=prompt_embed)
return outputs, true_labels, prompt_mask
def generate(self, audios: List[float], stopping_criteria=None):
"""
Generate the transcription
"""
prompt_embed, prompt_mask, _ = self._prepare_input_embeds(audios)
# outputs = self.language_model(
# inputs_embeds=prompt_embed,
# attention_mask=prompt_mask.bool()
# )
self.language_model.to(self._device, dtype=torch.bfloat16)
outputs = self.language_model.generate(tokenizer= self.language_tokenizer,inputs_embeds=prompt_embed)
return outputs
def training_step(self, batch, batch_idx):
args = self.args
if args.loss_mask:
idx, targets, mask = batch
mask = mask.view(-1)
sum_mask = torch.sum(mask).item()
logits = self(idx)
loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1), reduction='none')
loss = torch.sum(loss * mask) / sum_mask
# elif args.my_qa_mask != 1:
# idx, targets = batch
# logits = self(idx)
# loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1))
# if '0' in os.environ["RWKV_MY_TESTING"]:
# print('logits', logits)
# torch.set_printoptions(threshold=10000)
# print('idx', idx)
# exit(0)
else:
##改动
# idx, transcription = batch
idx = [item[0] for item in batch]
transcription = [item[1] for item in batch]
logits, targets, mask = self(idx, transcription)
mask = mask.view(-1)
sum_mask = torch.sum(mask).item()
######
# idx, targets, mask = batch
# mask = mask.view(-1)
# sum_mask = torch.sum(mask).item()
# # if sum_mask == 0:
# # return torch.tensor([0.0], requires_grad=True)
# logits = self(idx)
if sum_mask == mask.shape[0]:
loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1))
# print('rank', self.global_rank, 'loss', loss.item())
else:
loss = F.cross_entropy(logits.view(-1, logits.size(-1)), targets.view(-1), reduction='none')
# loss_raw = loss
loss = torch.sum(loss * mask) / sum_mask
# torch.set_printoptions(threshold=10000)
# if True: #self.global_rank == 1:
# tmp = ''
# sss = 0
# ccc = 0
# for i in range(mask.shape[0]):
# if mask[i] > 0:
# tmp += str(idx.view(-1)[i].item()) + ','
# sss += loss_raw.view(-1)[i].float().item()
# ccc += 1
# print('rank', self.global_rank, 'loss', loss.item(), 'lavg', sss / ccc)#, 'tmp', tmp, 'input', idx)
return L2Wrap.apply(loss, logits)
def configure_optimizers(self):
args = self.args
lr_decay = set()
lr_1x = set()
lr_2x = set()
lr_3x = set()
for n, p in self.named_parameters():
if not p.requires_grad:
continue
if (("_w1" in n) or ("_w2" in n)) and (args.layerwise_lr > 0):
lr_1x.add(n)
elif (("time_mix" in n) or ("time_maa" in n)) and (args.layerwise_lr > 0):
if args.my_pile_stage == 2:
lr_2x.add(n)
else:
lr_1x.add(n)
elif (("time_decay" in n) or ("time_daaaa" in n)) and (args.layerwise_lr > 0):
if args.my_pile_stage == 2:
lr_3x.add(n)
else:
lr_2x.add(n)
elif ("time_faaaa" in n) and (args.layerwise_lr > 0):
if args.my_pile_stage == 2:
lr_2x.add(n)
else:
lr_1x.add(n)
elif ("time_first" in n) and (args.layerwise_lr > 0):
lr_3x.add(n)
elif (len(p.squeeze().shape) >= 2) and (args.weight_decay > 0):
lr_decay.add(n)
else:
lr_1x.add(n)
lr_decay = sorted(list(lr_decay))
lr_1x = sorted(list(lr_1x))
lr_2x = sorted(list(lr_2x))
lr_3x = sorted(list(lr_3x))
# print('decay', lr_decay)
# print('1x', lr_1x)
# print('2x', lr_2x)
# print('3x', lr_3x)
param_dict = {n: p for n, p in self.named_parameters()}
if args.layerwise_lr > 0:
if args.my_pile_stage == 2:
optim_groups = [
{"params": [param_dict[n] for n in lr_1x], "weight_decay": 0.0, "my_lr_scale": 1.0},
{"params": [param_dict[n] for n in lr_2x], "weight_decay": 0.0, "my_lr_scale": 5.0},# test: 2e-3 / args.lr_init},
{"params": [param_dict[n] for n in lr_3x], "weight_decay": 0.0, "my_lr_scale": 5.0},# test: 3e-3 / args.lr_init},
]
else:
optim_groups = [
{"params": [param_dict[n] for n in lr_1x], "weight_decay": 0.0, "my_lr_scale": 1.0},
{"params": [param_dict[n] for n in lr_2x], "weight_decay": 0.0, "my_lr_scale": 2.0},
{"params": [param_dict[n] for n in lr_3x], "weight_decay": 0.0, "my_lr_scale": 3.0},
]
else:
optim_groups = [{"params": [param_dict[n] for n in lr_1x], "weight_decay": 0.0, "my_lr_scale": 1.0}]
if args.weight_decay > 0:
optim_groups += [{"params": [param_dict[n] for n in lr_decay], "weight_decay": args.weight_decay, "my_lr_scale": 1.0}]
if self.deepspeed_offload:
return DeepSpeedCPUAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, adamw_mode=True, amsgrad=False)
return FusedAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, adam_w_mode=True, amsgrad=False)
else:
if self.deepspeed_offload:
return DeepSpeedCPUAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, adamw_mode=False, weight_decay=0, amsgrad=False)
return FusedAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, adam_w_mode=False, weight_decay=0, amsgrad=False)
# return ZeroOneAdam(optim_groups, lr=self.args.lr_init, betas=self.args.betas, eps=self.args.adam_eps, bias_correction=True, weight_decay=0, amsgrad=False, cuda_aware=False)
def return_tokenizer(self):
return self.language_tokenizer
@property
def config(self):
return self.language_model.config
@property
def device(self):
return self._device
@device.setter
def device(self, value):
self._device = value
@property
def deepspeed_offload(self) -> bool:
strategy = self.trainer.strategy
if isinstance(strategy, DeepSpeedStrategy):
cfg = strategy.config["zero_optimization"]
return cfg.get("offload_optimizer") or cfg.get("offload_param")
return False
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