Quiet-Star-Custom / train-h100-sharegpt-sft.py

Duplicate from Crystalcareai/Quiet-Star-Custom

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	import torch
	torch.backends.cuda.matmul.allow_tf32 = True
	import random
	from transformers import AutoTokenizer, AutoModelForCausalLM, TextGenerationPipeline, AutoConfig, BitsAndBytesConfig
	from datasets import load_dataset
	from transformers import TrainingArguments
	from accelerate import infer_auto_device_map, init_empty_weights, dispatch_model
	from trl import SFTTrainer
	from peft import LoraConfig
	from torch.nn import CrossEntropyLoss
	import time
	import gc

	random_seed = 42
	torch.manual_seed(random_seed)
	random.seed(random_seed)

	dataset = load_dataset("HuggingFaceH4/orca-math-word-problems-200k", split="train_sft").select(range(1000))


	n_ahead_talk_global = 4
	n_passes_global = 1
	n_ahead_global = 4
	# n_examples = 1000
	# full_batch_size = 8

	def model_init(params):
	original = False
	if params is None:
	params = {}
	else:
	params = params.params
	# save params to file
	n_ahead = params.get("n_ahead", n_ahead_global if not original else 1)
	n_ahead_talk = params.get("n_ahead_talk", n_ahead_talk_global if not original else 1)
	n_passes = params.get("n_passes", n_passes_global if not original else 1)
	gumbel_temperature = params.get("gumbel_temperature", 1)
	use_start_thought_token = params.get("use_start_thought_token", True)
	use_end_thought_token = params.get("use_end_thought_token", True)
	include_policy_loss = params.get("include_policy_loss", True)
	gumbel_detach = params.get("gumbel_detach", True)
	merged_talk_heads = params.get("merged_talk_heads", True)
	residual_think_head = params.get("residual_think_head", False)
	optimize_lm_head_only_at_start = params.get("optimize_lm_head_only_at_start", False)

	model_id = "Crystalcareai/Quiet-Star-Custom"
	tokenizer_id = model_id
	print("Loading model")

	model = AutoModelForCausalLM.from_pretrained(
	model_id,
	torch_dtype=torch.bfloat16 if torch.cuda.is_available() else torch.float32,
	max_thoughts=n_ahead + n_ahead_talk + 1,
	merged_talk_heads=merged_talk_heads,
	merged_lm_and_talk_heads=False,
	merged_lm_and_think_heads=True,
	use_concat_talk_head=True,
	use_shallow_think=True,
	use_shallow_talk=False,
	use_complex_think_head=False,
	use_complex_talk_head=True,
	use_weighted_talk_head=True,
	trust_remote_code=True,
	device_map="auto",
	)
	print("Loaded model")

	tokenizer = AutoTokenizer.from_pretrained(tokenizer_id, truncation=True, padding_side="right")
	tokenizer.pad_token_id = tokenizer.eos_token_id

	special_tokens_to_add = []
	if model.use_start_thought_token:
	special_tokens_to_add.append("<\|startthought\|>")
	if model.use_end_thought_token:
	special_tokens_to_add.append("<\|endthought\|>")
	if special_tokens_to_add:
	tokenizer.add_special_tokens({"additional_special_tokens": special_tokens_to_add})
	model.tokenizer = tokenizer
	for name, module in model.named_modules():
	if "embed" in name:
	print(module, flush=True)

	model.gumbel_detach = gumbel_detach
	model.include_policy_loss = include_policy_loss
	model.use_end_thought_token = use_end_thought_token
	model.use_start_thought_token = use_start_thought_token
	model.n_ahead = n_ahead
	model.n_ahead_talk = n_ahead_talk
	model.n_passes = n_passes
	model.residual_think_head = residual_think_head
	model.optimize_lm_head_only_at_start = optimize_lm_head_only_at_start
	model.gumbel_temperature = gumbel_temperature
	model.original_mode = original
	model.config_params = params
	model.run_start = int(time.time())
	model.train()
	return model

	max_seq_length = 1024
	run_id = int(time.time())
	training_args = TrainingArguments(
	output_dir="./out",
	num_train_epochs=1,
	per_device_train_batch_size=1,
	gradient_checkpointing=False,
	gradient_accumulation_steps=8,
	optim="adamw_torch_fused",
	logging_steps=1,
	save_strategy="steps",
	save_steps=100,
	max_steps=-1,
	# auto_find_batch_size=True,
	weight_decay=0.001,
	bf16=True,

	tf32=True,
	learning_rate=2e-10,
	max_grad_norm=0,
	warmup_steps=20,
	lr_scheduler_type="cosine",
	push_to_hub=False,
	report_to="wandb"
	)

	peft_config = LoraConfig(
	r = 8, # Choose any number > 0 ! Suggested 8, 16, 32, 64, 128
	target_modules =["q_proj", "v_proj"],
	lora_alpha = 32,
	lora_dropout = 0, # Supports any, but = 0 is optimized
	bias = "none",
	use_dora=True,
	task_type="CAUSAL_LM"
	)

	torch.autograd.set_detect_anomaly(True)

	# class CustomSFTTrainer(SFTTrainer):
	# def __init__(self, args, *kwargs):
	# super().__init__(args, *kwargs)
	# self.beta = 0.9 # momentum factor
	# self.clip_factor = 1.0 # clipping factor
	# self.moving_avg = 0.0

	# def training_step(self, model, inputs):
	# model.train()
	# inputs = self._prepare_inputs(inputs)

	# outputs = model(**inputs)
	# loss = outputs.loss if isinstance(outputs, dict) else outputs[0]

	# if self.args.gradient_accumulation_steps > 1:
	# loss = loss / self.args.gradient_accumulation_steps

	# loss.backward()

	# # Compute gradients and their norm
	# grad_norm = torch.sqrt(sum(p.grad.data.norm().to(model.device)**2 for p in model.parameters() if p.grad is not None))

	# # Update moving average and apply gradient clipping
	# if self.state.global_step == 0:
	# self.moving_avg = grad_norm
	# else:
	# self.moving_avg = self.beta * self.moving_avg + (1 - self.beta) * grad_norm

	# if grad_norm > self.clip_factor * self.moving_avg:
	# clip_coef = (self.clip_factor * self.moving_avg / grad_norm).item()
	# for param in model.parameters():
	# if param.grad is not None:
	# param.grad.data.mul_(clip_coef)

	# if (self.state.global_step + 1) % self.args.gradient_accumulation_steps == 0:
	# self.optimizer.step()
	# self.lr_scheduler.step()
	# model.zero_grad()
	# self.state.global_step += 1

	# # Return the loss as a Tensor
	# return loss

	device = torch.device("cuda" if torch.cuda.is_available() else "cpu")

	model = model_init(None)

	trainer = SFTTrainer(
	model=model,
	args=training_args,
	train_dataset=dataset,
	tokenizer=model.tokenizer,
	max_seq_length=max_seq_length,
	peft_config=peft_config,
	)

	trainer.train()