vall-e/vall_e/models/experimental.py

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"""
This is an experiment to:
* entertain a thought to try and abide by HF's transformers API (to benefit from caching better)
* conform to a single embedding (instead of a bunch of them) by folding/unfolding inputs
* stop trying to make a mixed AR+NAR model work since it seems lobotomized if I keep trying to enforce both recurrent and parallel inferencing (despite a penalty cost)
+ I will not cave and go with codebook patterns, not yet.
"""
from ..config import cfg
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from ..data import fold_inputs, unfold_outputs
import torch
import torch.nn.functional as F
from torch.nn.utils.rnn import pad_sequence
from torch import Tensor
from torch.nn import CrossEntropyLoss
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from torch.utils.checkpoint import checkpoint
from torchmetrics.classification import BinaryAccuracy, MulticlassAccuracy, MulticlassPrecision
import random
import math
from einops import rearrange
from tqdm import trange
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from .arch import *
if cfg.model.arch_type not in AVAILABLE_ARCHES:
raise ValueError(f"Requesting arch `{cfg.model.arch_type}` but not available")
if cfg.model.arch_type in ["mamba","mamba2"]:
LlmArchClass = MambaLMHeadModel
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elif cfg.model.arch_type == "llama":
LlmArchClass = LlamaForCausalLM
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elif cfg.model.arch_type == "retnet":
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LlmArchClass = RetNetForCausalLM
else:
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raise ValueError(f"Requesting arch `{cfg.model.arch_type}` but not available")
class Model(LlmArchClass):
def __init__(
self,
n_text_tokens = 256,
n_audio_tokens = 1024,
d_model=1024,
n_layers=12,
n_heads=16,
p_dropout=0.1,
config = cfg.model,
):
self.hyper_config = config
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hf_attention = config.attention if config is not None else None
gradient_checkpointing = config.gradient_checkpointing if config is not None else True
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# text_tokens + rvq levels + [audio tokens * codebooks] (prom) + [audio tokens * codebooks] (resp) + stop
vocab_size = n_text_tokens + cfg.model.max_levels + (n_audio_tokens * cfg.model.max_levels) + (n_audio_tokens * cfg.model.max_levels) + 1
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if cfg.model.arch_type == "llama":
super().__init__(config=LlamaConfig(
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vocab_size=vocab_size,
hidden_size=d_model,
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max_position_embeddings=cfg.dataset.frames_per_second * cfg.model.max_levels * 60, # max-length of 60 seconds
intermediate_size=d_model*4,
num_hidden_layers=n_layers,
num_attention_heads=n_heads,
attention_dropout=p_dropout,
num_key_value_heads=n_heads,
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sliding_window=cfg.dataset.frames_per_second * cfg.model.max_levels * 12,
hidden_act="gelu",
is_encoder_decoder=False,
is_decoder=True,
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attn_implementation=hf_attention,
))
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if gradient_checkpointing:
self.gradient_checkpointing_enable(gradient_checkpointing_kwargs=dict(
use_reentrant=False
))
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elif cfg.model.arch_type == "retnet":
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super().__init__(config=RetNetConfig(
vocab_size=vocab_size,
decoder_embed_dim=d_model,
decoder_value_embed_dim =d_model * 2,
decoder_retention_heads=n_heads,
decoder_ffn_embed_dim=d_model * 4,
decoder_layers=n_layers,
dropout=p_dropout,
checkpoint_activations=gradient_checkpointing,
activation_fn="gelu",
use_layernorm=False,
use_biases=False,
use_glu=True,
#chunkwise_recurrent=self.causal and self.recurrent_chunk_size > 0,
#recurrent_chunkwise_size=self.recurrent_chunk_size if self.causal else 0,
#no_output_layer=True,
#rotary_embedding_base=self.rotary_embedding_base, # 10000
decoder_normalize_before=True,
))
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elif cfg.model.arch_type in ["mamba","mamba2"]:
super().__init__(config=MambaConfig(
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vocab_size=vocab_size,
d_model=d_model,
n_layer=n_layers,
d_intermediate=d_model*4,
ssm_cfg={"layer": "Mamba2"} if cfg.model.arch_type == "mamba2" else {},
rms_norm=True,
fused_add_norm=True,
residual_in_fp32=True,
))
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self.backbone.gradient_checkpointing = gradient_checkpointing
self.accuracy_metric = None if True else MulticlassAccuracy(
vocab_size,
top_k=10,
average="micro",
multidim_average="global",
ignore_index=-100,
)
def generate(
self,
*args,
**kwargs
):
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if cfg.model.arch_type in ["mamba","mamba2"]:
kwargs["cg"] = True
if "attention_mask" in kwargs:
kwargs.pop("attention_mask")
if "do_sample" in kwargs:
kwargs.pop("do_sample")
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if "min_length" in kwargs:
kwargs.pop("min_length")
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return super().generate(*args, **kwargs)
def forward(
self,
*args,
**kwargs,
):
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if cfg.model.arch_type in ["mamba","mamba2"]:
if "attention_mask" in kwargs:
kwargs.pop("attention_mask")
labels = kwargs.pop("labels") if "labels" in kwargs else None
output = super().forward(*args, **kwargs)
logits = output.logits
# i HATE the correct way
if labels is not None:
if self.hyper_config is None or not self.hyper_config.loss_factors:
loss = sum([ F.cross_entropy( logit[:-1, :], label[1:], ignore_index=-100 ) for logit, label in zip( logits, labels ) ])
self.loss = dict(
nll = loss,
)
if self.accuracy_metric is not None:
self.stats = dict(
acc = (sum([ self.accuracy_metric( logit, target ) for logit, target in zip( logits, labels ) ] ) / len( logits )).item()
)
else:
sep = 3
# determine specific sections to focus on
indices = [ [ idx for idx, token in enumerate( batch ) if token == sep ] for i, batch in enumerate( labels ) ]
text_index = 0
resp_index = 1 # 1 indluces everything non text, -3 includes pre_resp + resp (ignores prom, probably better to include prom here)
labels_text = [ batch[:indices[i][text_index] + 1 ] for i, batch in enumerate( labels ) ]
labels_resp = [ batch[indices[i][resp_index] + 1:] for i, batch in enumerate( labels ) ]
logits_text = [ batch[:indices[i][text_index] + 1 ] for i, batch in enumerate( logits ) ]
logits_resp = [ batch[indices[i][resp_index] + 1:] for i, batch in enumerate( logits ) ]
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loss_text = sum([ F.cross_entropy( logit[:-1, :], label[1:], ignore_index=-100 ) for logit, label in zip( logits_text, labels_text ) ]) / len(logits_text) * self.hyper_config.loss_factor("text")
loss_resp = sum([ F.cross_entropy( logit[:-1, :], label[1:], ignore_index=-100 ) for logit, label in zip( logits_resp, labels_resp ) ]) / len(logits_resp) * self.hyper_config.loss_factor("resp")
self.loss = dict(
text = loss_text,
resp = loss_resp,
)
if self.accuracy_metric is not None:
self.stats = dict(
acc = dict(
text = (sum([ self.accuracy_metric( logit, target ) for logit, target in zip( logits_text, labels_text ) ] ) / len( logits_text )).item(),
resp = (sum([ self.accuracy_metric( logit, target ) for logit, target in zip( logits_resp, labels_resp ) ] ) / len( logits_resp )).item(),
)
)
return output
def example_usage():
cfg.trainer.backend = "local"
cfg.hyperparameters.gradient_accumulation_steps = 1
if cfg.audio_backend == "dac":
cfg.sample_rate = 44_000
from functools import partial
from einops import repeat
from tqdm import tqdm
from ..emb.qnt import decode_to_file, unload_model
from ..engines import Engine
from ..utils import wrapper as ml
import numpy as np
import re
device = "cuda"
def tokenize(content):
return torch.tensor( cfg.tokenizer.encode(content) )
def _load_quants(path) -> Tensor:
qnt = np.load(path, allow_pickle=True)[()]
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return torch.from_numpy(qnt["codes"].astype(np.int16))[0, :cfg.model.max_levels, :].t().to(torch.int16)
qnt = _load_quants(f"./data/qnt.{'dac' if cfg.audio_backend == 'dac' else 'enc'}")
text_list = [
tokenize("ˈaɪ wɪl nˌɑːt ˈæsk ɐ sˈɛkənd tˈaɪm").to(device),
#tokenize("ˈaɪ wɪl nˌɑːt ˈæsk ɐ sˈɛkənd tˈaɪm").to(device),
]
prom_list = [
qnt[:cfg.dataset.frames_per_second, :].to(device),
#qnt[:cfg.dataset.frames_per_second, :].to(device),
]
resp_list = [
qnt[:, :].to(device),
#qnt[cfg.dataset.frames_per_second:, :].to(device),
#qnt[:cfg.dataset.frames_per_second, :].to(device),
]
text_list = text_list[:1]
prom_list = prom_list[:1]
resp_list = resp_list[:1]
kwargs = {}
model = Model(**kwargs).to(device)
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steps = 100
optimizer = cfg.hyperparameters.optimizer.lower() if cfg.yaml_path is not None else "prodigy"
scheduler = cfg.hyperparameters.scheduler.lower() if cfg.yaml_path is not None else ""
learning_rate = cfg.hyperparameters.learning_rate if cfg.yaml_path is not None else None
if cfg.optimizations.dadaptation:
# do not combine the two
if scheduler == "schedulefree":
scheduler = ""
learning_rate = 1.0
if optimizer == "prodigy":
if learning_rate is None:
learning_rate = 1.0
optimizer = ml.Prodigy
elif optimizer == "adagrad":
if learning_rate is None:
learning_rate = 1.0e-2
optimizer = ml.Adagrad
elif optimizer == "adamw":
if learning_rate is None:
learning_rate = 1.0e-4
optimizer = ml.AdamW
elif optimizer == "sdg":
if learning_rate is None:
learning_rate = 1.0e-4
optimizer = ml.SGD
else:
raise ValueError(f"Unrecognized optimizer: {optimizer}")
print("Optimizer:", optimizer, "\tLearning rate:", learning_rate)
optimizer = optimizer(model.parameters(), lr=learning_rate)
if scheduler == "schedulefree":
if isinstance(optimizer, ml.AdamW):
scheduler = ml.schedulefree.AdamWScheduleFree
elif isinstance(optimizer, ml.SGD):
scheduler = ml.schedulefree.SGDScheduleFree
else:
scheduler = None
if scheduler is not None:
print("Scheduler:", scheduler)
optimizer = scheduler( model.parameters(), lr = learning_rate )
if cfg.optimizations.replace and cfg.optimizations.linear:
model = ml.replace_linear( model )
if cfg.optimizations.replace and cfg.optimizations.embedding:
model = ml.replace_embedding( model )
engine = Engine(model=model, optimizer=optimizer)
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"""
torch.save( {
'module': model.state_dict()
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}, f"./data/{cfg.model.arch_type}.pth" )
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"""
print(f"{LlmArchClass} parameter count: {sum(p.numel() for p in model.parameters() if p.requires_grad)}")
@torch.inference_mode()
def sample( name, steps=cfg.model.max_levels*cfg.dataset.frames_per_second*6 ):
engine.eval()
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batch_size = len(text_list)
resp_list = None
if cfg.model.interleave:
input_ids, attention_mask = fold_inputs(text_list=text_list, prom_list=prom_list)
output = model.generate(input_ids=input_ids, attention_mask=attention_mask, max_length=steps, eos_token_id=3, do_sample=False)
unfolded = unfold_outputs( output )
resp_list = unfolded["resp_list"]
else:
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resp_list = [ [] for _ in range(batch_size) ]
for l in range(cfg.model.max_levels):
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quant_levels = [ l for _ in range(batch_size) ]
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input_ids, attention_mask = fold_inputs(text_list=text_list, prom_list=prom_list, resp_list=resp_list, quant_levels=quant_levels)
min_length = 1
for batch in input_ids:
min_length = max( min_length, batch.shape[0] + 1 )
output = model.generate(
input_ids=input_ids,
attention_mask=attention_mask,
min_length=min_length,
max_length=min_length+steps*2,
eos_token_id=3,
do_sample=False
)
unfolded = unfold_outputs( output, quant_levels=quant_levels )
if l == 0:
steps = 0
for batch, resp in enumerate(unfolded["resp_list"]):
length = resp.shape[-1]
# store length
if l == 0:
steps = max( steps, length )
# pad
else:
resp = resp[:steps]
if length < steps:
resp = torch.cat([ resp, torch.Tensor([ 0 for _ in range(steps-length) ]).to(resp) ])
resp_list[batch].append( resp )
for i, resp in enumerate( resp_list ):
resp_list[i] = torch.stack( resp ).t()
for i, batch in enumerate(resp_list):
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_ = decode_to_file(batch.to(device=device), f"data/{cfg.model.arch_type}.{cfg.audio_backend}.{i}.{name}.wav", device=device)
unload_model()
def train():
engine.train()
t = trange(steps)
for i in t:
stats = {"step": i}
batch_size = len(text_list)
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quant_levels = None if cfg.model.interleave else torch.randint(0 if "ar" in cfg.model.capabilities else 1, cfg.model.max_levels, (batch_size,))
if quant_levels is not None:
resps_list = [ [] if l == 0 else resp for l, resp in zip(quant_levels, resp_list) ]
else:
resps_list = [ resp for resp in resp_list ]
input_ids, attention_mask = fold_inputs(text_list=text_list, prom_list=prom_list, resp_list=resps_list, targ_list=resp_list, quant_levels=quant_levels)
target_ids, target_attention_mask = fold_inputs(text_list=text_list, prom_list=prom_list, resp_list=resp_list, targ_list=resp_list, ignore_index=-100, quant_levels=quant_levels)
stats |= engine.traverse(input_ids=input_ids, labels=target_ids, attention_mask=attention_mask)
stats |= engine.gather_attribute("stats")
stats |= {"grad_norm": engine.get_global_grad_norm()}
tqdm.write(f"{stats}")
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"""
torch.save( {
'module': model.state_dict()
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}, f"./data/{cfg.model.arch_type}.pth" )
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"""
#sample("init", 5)
train()
sample("final")
if __name__ == "__main__":
example_usage()