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"""Module containing the Trainer class and related functions"""
import importlib
import logging
import math
import os
import sys
from contextlib import contextmanager
from dataclasses import dataclass, field
from functools import partial
from pathlib import Path
from typing import Optional, Union
import numpy as np
import torch
import torch.cuda
import transformers
from datasets import Dataset, set_caching_enabled
from torch.optim.lr_scheduler import OneCycleLR
from torch.utils.data import (
DataLoader,
DistributedSampler,
RandomSampler,
SequentialSampler,
)
from transformers import EarlyStoppingCallback, Trainer, TrainingArguments
from transformers.trainer_pt_utils import SequentialDistributedSampler
from axolotl.monkeypatch.relora import ReLoRACallback, ReLoRAScheduler
from axolotl.utils.callbacks import (
GPUStatsCallback,
SaveBetterTransformerModelCallback,
SavePeftModelCallback,
bench_eval_callback_factory,
log_prediction_callback_factory,
)
from axolotl.utils.collators import DataCollatorForSeq2Seq
from axolotl.utils.dataloader import MultipackDistributedDataloader
from axolotl.utils.distributed import is_main_process, zero_first
from axolotl.utils.schedulers import get_cosine_schedule_with_quadratic_warmup
LOG = logging.getLogger("axolotl")
@torch.jit.script
def weighted_cross_entropy(
logits: torch.Tensor, labels: torch.Tensor, weights: torch.Tensor
):
# Flatten the logits, labels, and weights tensors
logits = logits.view(
-1, logits.size(-1)
) # logits becomes of shape [batch_size*sequence_length, vocab_size]
labels = labels.view(-1) # labels becomes of shape [batch_size*sequence_length]
weights = weights.view(-1) # weights becomes of shape [batch_size*sequence_length]
# Compute the unweighted cross entropy loss
losses = torch.nn.functional.cross_entropy(logits, labels, reduction="none")
# Apply the weights to the losses and compute their sum
return (weights * losses).sum()
@torch.jit.script
def create_weighted_mask(labels: torch.Tensor):
# Check if the tensor is 2D. If not, unsqueeze it to make it 2D
if len(labels.shape) == 1:
labels = labels.unsqueeze(0)
weights = torch.zeros_like(labels).float()
for i in range(labels.shape[0]):
mask = labels[i] != -100
# Create a tensor to track group ids
group_ids = torch.zeros_like(labels[i]).int()
curr_group_id = 0
for j in range(1, len(labels[i])):
if mask[j] and not mask[j - 1]: # switch from masked to unmasked label
curr_group_id += 1 # start new group
group_ids[j] = (
curr_group_id if mask[j] else 0
) # assign group id if unmasked label
# Count only unmasked labels in each group
group_counts = torch.bincount(group_ids[mask])
mask_weights = torch.zeros_like(labels[i]).float()
mask_weights[mask] = 1.0 / group_counts[group_ids[mask]]
weights[i] = mask_weights
return weights.squeeze() # squeeze the output to match the input dimension
def trainer_weighted_loss(model_output, labels, shift_labels=True):
logits = (
model_output["logits"] if isinstance(model_output, dict) else model_output[0]
)
if shift_labels:
logits = logits[..., :-1, :].contiguous()
labels = labels[..., 1:].contiguous()
weights = create_weighted_mask(labels)
return weighted_cross_entropy(logits, labels, weights)
@dataclass
class AxolotlTrainingArguments(TrainingArguments):
"""
Extend the base TrainingArguments for axolotl helpers
"""
lr_quadratic_warmup: bool = field(
default=False,
metadata={"help": "Use quadratic warmup for cosine scheduling."},
)
sample_packing: bool = field(
default=False,
metadata={"help": "Use sample packing for efficient training."},
)
sample_packing_efficiency: float = field(
default=1.0,
metadata={"help": "Sample packing efficiency for calculating batch length."},
)
max_seq_length: int = field(
default=2048,
metadata={"help": "The maximum sequence length the model can handle"},
)
sample_packing_seq_len_multiplier: int = field(
default=1,
metadata={"help": "the multiplier for the max len for packed sequences"},
)
relora_steps: Optional[int] = field(
default=None,
metadata={"help": "how often to reset for ReLoRA"},
)
relora_warmup_steps: Optional[int] = field(
default=None,
metadata={"help": "how many warmup steps to take after reset for ReLoRA"},
)
bench_split: Optional[str] = field(
default="eval", metadata={"help": "The benchmark split to run on"}
)
bench_dataset: Optional[str] = field(
default="pharaouk/dharma-1/dharma_1_mini.json",
metadata={
"help": "Benchmark dataset to use: options are `mmlu-zs`, `mmlu-fs`, or the full path to the dataset file"
},
)
do_bench_eval: Optional[bool] = field(
default=False, metadata={"help": "Whether to run the Benchmark evaluation."}
)
max_bench_samples: Optional[int] = field(
default=None,
metadata={
"help": "If set, only evaluates on `max_bench_samples` of the benchmark dataset."
},
)
bench_source_max_len: int = field(
default=2048, metadata={"help": "Maximum source sequence length for bench."}
)
class AxolotlTrainer(Trainer):
"""
Extend the base Trainer for axolotl helpers
"""
args = None # type: AxolotlTrainingArguments
def __init__(self, *args, bench_data_collator=None, **kwargs):
self.bench_data_collator = bench_data_collator
super().__init__(*args, **kwargs)
def create_scheduler(
self, num_training_steps: int, optimizer: torch.optim.Optimizer = None
):
"""
Setup the scheduler. The optimizer of the trainer must have been set up either before this method is called or
passed as an argument.
Args:
num_training_steps (int): The number of training steps to do.
optimizer (torch.optim.Optimizer): The training optimizer
"""
# fmt: off
if self.lr_scheduler is None: # type: ignore # pylint: disable=access-member-before-definition
# fmt: on
if (
self.args.lr_scheduler_type == "cosine"
and self.args.lr_quadratic_warmup is True
):
self.lr_scheduler = get_cosine_schedule_with_quadratic_warmup( # pylint: disable=attribute-defined-outside-init
optimizer,
num_warmup_steps=self.args.get_warmup_steps(num_training_steps),
num_training_steps=num_training_steps,
)
else:
return super().create_scheduler(num_training_steps, optimizer)
return self.lr_scheduler
def _get_train_sampler(self) -> Optional[torch.utils.data.Sampler]:
if self.args.world_size > 1 and self.args.sample_packing:
return DistributedSampler(
self.train_dataset,
num_replicas=self.args.world_size,
rank=self.args.process_index,
seed=self.args.seed,
)
return super()._get_train_sampler()
def _get_eval_sampler(
self, eval_dataset: Dataset
) -> Optional[torch.utils.data.Sampler]:
if self.args.world_size > 1 and self.args.sample_packing:
return SequentialDistributedSampler(
eval_dataset,
num_replicas=self.args.world_size,
rank=self.args.process_index,
batch_size=self.args.per_device_eval_batch_size,
)
return super()._get_eval_sampler(eval_dataset)
def get_train_dataloader(self) -> Union[DataLoader, MultipackDistributedDataloader]:
if self.args.sample_packing:
train_sampler = self._get_train_sampler()
return self.accelerator.prepare(
MultipackDistributedDataloader(
self.train_dataset,
batch_size=self._train_batch_size,
seq_max_length=self.args.max_seq_length,
collate_fn=self.data_collator,
sampler=train_sampler,
packing_efficiency_estimate=self.args.sample_packing_efficiency,
sample_packing_seq_len_multiplier=self.args.sample_packing_seq_len_multiplier,
device_count=int(os.environ.get("WORLD_SIZE", 1)),
)
)
return super().get_train_dataloader()
def get_eval_dataloader(
self, eval_dataset: Optional[Dataset] = None
) -> Union[DataLoader, MultipackDistributedDataloader]:
if self.args.sample_packing:
eval_dataset = (
eval_dataset if eval_dataset is not None else self.eval_dataset
)
eval_sampler = self._get_eval_sampler(eval_dataset)
return self.accelerator.prepare(
MultipackDistributedDataloader(
eval_dataset,
batch_size=self.args.eval_batch_size,
seq_max_length=self.args.max_seq_length,
collate_fn=self.data_collator,
sampler=eval_sampler,
packing_efficiency_estimate=self.args.sample_packing_efficiency,
sample_packing_seq_len_multiplier=self.args.eval_batch_size,
device_count=int(os.environ.get("WORLD_SIZE", 1)),
)
)
return super().get_eval_dataloader(eval_dataset)
def _get_bench_sampler(
self, bench_dataset: Dataset
) -> Optional[torch.utils.data.Sampler]:
if self.args.world_size <= 1:
return SequentialSampler(bench_dataset)
return None
def get_bench_dataloader(
self,
bench_dataset: Dataset,
) -> Union[DataLoader, MultipackDistributedDataloader]:
dataloader_params = {
"batch_size": self.args.eval_batch_size,
"collate_fn": self.bench_data_collator,
"num_workers": self.args.dataloader_num_workers,
"pin_memory": self.args.dataloader_pin_memory,
}
if not isinstance(bench_dataset, torch.utils.data.IterableDataset):
dataloader_params["sampler"] = self._get_bench_sampler(bench_dataset)
dataloader_params["drop_last"] = self.args.dataloader_drop_last
return DataLoader(bench_dataset, **dataloader_params)
# return self.accelerator.prepare(DataLoader(bench_dataset, **dataloader_params))
def compute_loss(self, model, inputs, return_outputs=False):
# use one's weighted cross entropy loss calc
# if self.args.sample_packing:
# labels = inputs.pop("labels")
# outputs = model(**inputs)
# loss = trainer_weighted_loss(outputs, labels, shift_labels=True)
# return (loss, outputs) if return_outputs else loss
return super().compute_loss(model, inputs, return_outputs=return_outputs)
class OneCycleLRSchedulerTrainer(AxolotlTrainer):
"""
Trainer subclass that uses the OneCycleLR scheduler
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.lr_scheduler = None
def create_scheduler(
self,
num_training_steps: int,
optimizer: Optional[torch.optim.Optimizer] = None,
):
optimizer = self.optimizer if optimizer is None else optimizer
num_warmup_steps = self.args.get_warmup_steps(num_training_steps)
pct_start = num_warmup_steps / num_training_steps
self.lr_scheduler = OneCycleLR(
optimizer,
max_lr=self.args.learning_rate,
total_steps=num_training_steps,
pct_start=pct_start,
div_factor=6,
)
return self.lr_scheduler
class ReLoRATrainer(AxolotlTrainer):
"""
Trainer subclass that uses the OneCycleLR scheduler
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.lr_scheduler = None
def create_scheduler(
self,
num_training_steps: int,
optimizer: Optional[torch.optim.Optimizer] = None,
):
optimizer = self.optimizer if optimizer is None else optimizer
lr_scheduler = super().create_scheduler(num_training_steps, optimizer)
if self.args.relora_steps:
warmup_steps = (
self.args.relora_warmup_steps if self.args.relora_warmup_steps else 10
)
self.lr_scheduler = ReLoRAScheduler(
optimizer,
lr_scheduler,
self.args.relora_steps,
warmup_steps,
)
else:
self.lr_scheduler = lr_scheduler
return self.lr_scheduler
def add_position_ids(sample):
sample_len = len(sample["input_ids"])
sample["position_ids"] = torch.arange(len(sample["input_ids"]))
sample["length"] = sample_len
return sample
def add_length(sample):
sample["length"] = len(sample["input_ids"])
return sample
def drop_long_seq(sample, sequence_len=2048):
return len(sample["input_ids"]) <= sequence_len and len(sample["input_ids"]) > 0
@contextmanager
def disable_datasets_caching():
try:
set_caching_enabled(False)
yield
finally:
set_caching_enabled(True)
def process_datasets_for_packing(cfg, train_dataset, eval_dataset):
drop_long = partial(drop_long_seq, sequence_len=cfg.sequence_len)
with zero_first(is_main_process()):
train_dataset = train_dataset.filter(drop_long, num_proc=os.cpu_count())
if eval_dataset:
eval_dataset = eval_dataset.filter(drop_long, num_proc=os.cpu_count())
if cfg.group_by_length:
train_dataset = train_dataset.map(add_length, num_proc=os.cpu_count())
if cfg.sample_packing:
train_dataset = train_dataset.map(add_position_ids, num_proc=os.cpu_count())
if eval_dataset:
eval_dataset = eval_dataset.map(
add_position_ids, num_proc=os.cpu_count()
)
return train_dataset, eval_dataset
def calculate_total_num_steps(cfg, train_dataset, tokenizer):
if cfg.sample_packing:
# we have to drop anything longer then sequence len otherwise
# flash attention with position ids fails
if not cfg.total_num_tokens:
LOG.info("calculating total_num_tokens")
total_num_tokens = np.sum(
train_dataset.data.column("input_ids")
.to_pandas()
.apply(lambda x: len(x)) # pylint: disable=unnecessary-lambda
.values
)
LOG.info(f"π UPDATE CONFIG WITH: `total_num_tokens: {total_num_tokens}`")
cfg.total_num_tokens = total_num_tokens
if not cfg.total_supervised_tokens:
total_supervised_tokens = (
train_dataset.data.column("labels")
.to_pandas()
.apply(lambda x: np.sum(np.array(x) != -100))
.sum()
)
LOG.info(f"`total_supervised_tokens: {total_supervised_tokens}`")
cfg.total_supervised_tokens = total_supervised_tokens
if cfg.sample_packing_eff_est:
total_num_steps = (
# match count to len est in dataloader
(
math.floor(
0.99
* cfg.total_num_tokens
/ cfg.sample_packing_eff_est
/ cfg.sequence_len
// cfg.batch_size
// int(os.environ.get("WORLD_SIZE", 1))
)
- 1
)
* cfg.num_epochs
)
LOG.info(
f"total_num_tokens: {cfg.total_num_tokens}, total_num_steps: {total_num_steps}"
)
else:
sampler = RandomSampler(train_dataset)
data_loader = MultipackDistributedDataloader(
train_dataset,
batch_size=cfg.micro_batch_size,
seq_max_length=cfg.max_packed_sequence_len or cfg.sequence_len,
collate_fn=DataCollatorForSeq2Seq(
tokenizer,
return_tensors="pt",
padding="longest",
),
sampler=sampler,
packing_efficiency_estimate=cfg.sample_packing_eff_est,
sample_packing_seq_len_multiplier=cfg.micro_batch_size,
device_count=int(os.environ.get("WORLD_SIZE", 1)),
)
data_loader_len = data_loader.len_w_stats()
actual_eff = data_loader.efficiency()
LOG.info(f"data_loader_len: {data_loader_len}")
total_num_steps = int(
math.floor(
data_loader_len
* cfg.micro_batch_size
* cfg.num_epochs
// cfg.batch_size
)
)
LOG.info(
f"π UPDATE CONFIG WITH: `sample_packing_eff_est: {math.ceil(actual_eff * 100.0) / 100.0}`"
)
cfg.sample_packing_eff_est = math.ceil(actual_eff * 100.0) / 100.0
else:
total_num_steps = int(
math.ceil(len(train_dataset) * cfg.num_epochs / cfg.batch_size)
)
LOG.info(f"total_num_steps: {total_num_steps}")
return total_num_steps
def setup_fsdp_envs(cfg):
os.environ["ACCELERATE_USE_FSDP"] = "true"
if cfg.fsdp_config.fsdp_offload_params:
os.environ["FSDP_OFFLOAD_PARAMS"] = "true"
if cfg.fsdp_config.fsdp_sync_module_states:
os.environ["FSDP_SYNC_MODULE_STATES"] = "true"
if cfg.fsdp_config.fsdp_state_dict_type:
os.environ["FSDP_STATE_DICT_TYPE"] = cfg.fsdp_config.fsdp_state_dict_type
if cfg.fsdp_config.fsdp_transformer_layer_cls_to_wrap:
os.environ[
"FSDP_TRANSFORMER_CLS_TO_WRAP"
] = cfg.fsdp_config.fsdp_transformer_layer_cls_to_wrap
def setup_trainer(cfg, train_dataset, eval_dataset, model, tokenizer, total_num_steps):
if cfg.fsdp:
setup_fsdp_envs(cfg)
elif cfg.deepspeed:
os.environ["ACCELERATE_USE_DEEPSPEED"] = "true"
warmup_steps = (
cfg.warmup_steps
if cfg.warmup_steps is not None
else min(int(0.03 * total_num_steps), 100)
)
logging_steps = (
cfg.logging_steps
if cfg.logging_steps is not None
else max(min(int(0.005 * total_num_steps), 10), 1)
)
training_arguments_kwargs = {}
if cfg.bf16 == "full":
training_arguments_kwargs["bf16_full_eval"] = True
else:
training_arguments_kwargs["bf16"] = cfg.bf16
training_arguments_kwargs["fp16"] = (cfg.fp16 and not cfg.bf16) or False
training_arguments_kwargs["tf32"] = cfg.tf32
training_arguments_kwargs["warmup_steps"] = warmup_steps
training_arguments_kwargs["logging_steps"] = logging_steps
if cfg.seed:
training_arguments_kwargs["seed"] = cfg.seed
if cfg.gradient_checkpointing:
training_arguments_kwargs["gradient_checkpointing"] = cfg.gradient_checkpointing
if cfg.fsdp:
training_arguments_kwargs["fsdp"] = cfg.fsdp
if cfg.fsdp_config:
training_arguments_kwargs["fsdp_config"] = dict(cfg.fsdp_config)
# deepspeed
if cfg.deepspeed:
training_arguments_kwargs["deepspeed"] = cfg.deepspeed
if cfg.lr_quadratic_warmup is not None:
training_arguments_kwargs["lr_quadratic_warmup"] = cfg.lr_quadratic_warmup
if cfg.adam_beta1:
training_arguments_kwargs["adam_beta1"] = cfg.adam_beta1
if cfg.adam_beta2:
training_arguments_kwargs["adam_beta2"] = cfg.adam_beta2
if cfg.adam_epsilon:
training_arguments_kwargs["adam_epsilon"] = cfg.adam_epsilon
if cfg.max_grad_norm:
training_arguments_kwargs["max_grad_norm"] = cfg.max_grad_norm
if cfg.hub_model_id:
training_arguments_kwargs["hub_model_id"] = cfg.hub_model_id
training_arguments_kwargs["push_to_hub"] = True
training_arguments_kwargs["hub_private_repo"] = True
if cfg.hub_strategy:
training_arguments_kwargs["hub_strategy"] = cfg.hub_strategy
if cfg.save_safetensors:
training_arguments_kwargs["save_safetensors"] = cfg.save_safetensors
if cfg.sample_packing_eff_est:
training_arguments_kwargs[
"sample_packing_efficiency"
] = cfg.sample_packing_eff_est
if cfg.eval_steps and cfg.evaluation_strategy:
# assume if the user set both, they know what they're doing
training_arguments_kwargs["evaluation_strategy"] = cfg.evaluation_strategy
training_arguments_kwargs["eval_steps"] = cfg.eval_steps
elif cfg.val_set_size == 0:
# no eval set, so don't eval
training_arguments_kwargs["evaluation_strategy"] = "no"
elif cfg.evaluation_strategy and cfg.evaluation_strategy in ["epoch", "no"]:
# if explicitly set for epoch, just set, and eval steps don't matter
training_arguments_kwargs["evaluation_strategy"] = cfg.evaluation_strategy
elif cfg.eval_steps:
# steps isn't used w/ epochs
training_arguments_kwargs["evaluation_strategy"] = "steps"
training_arguments_kwargs["eval_steps"] = cfg.eval_steps
else:
# we have an eval set, but no steps defined, default to use epoch
training_arguments_kwargs["evaluation_strategy"] = "epoch"
if cfg.save_steps:
# save_steps implies save_strategy of steps
training_arguments_kwargs["save_strategy"] = "steps"
training_arguments_kwargs["save_steps"] = cfg.save_steps
elif cfg.save_strategy:
training_arguments_kwargs["save_strategy"] = cfg.save_strategy
else:
# default to saving each epoch if not defined
training_arguments_kwargs["save_strategy"] = "epoch"
if cfg.do_bench_eval:
training_arguments_kwargs["do_bench_eval"] = cfg.do_bench_eval
if cfg.bench_dataset:
training_arguments_kwargs["bench_dataset"] = cfg.bench_dataset
if cfg.metric_for_best_model:
training_arguments_kwargs["metric_for_best_model"] = cfg.metric_for_best_model
if cfg.greater_is_better:
training_arguments_kwargs["greater_is_better"] = cfg.greater_is_better
if cfg.torch_compile:
if torch.__version__ < "2.1.0": # pylint: disable=protected-access
LOG.warning("torch>=2.1.0 required for torch_compile to work properly")
else:
import torch._dynamo # pylint: disable=redefined-outer-name
torch._dynamo.config.suppress_errors = ( # pylint: disable=protected-access
True
)
training_arguments_kwargs["torch_compile"] = cfg.torch_compile
if cfg.torch_compile_backend:
training_arguments_kwargs[
"torch_compile_backend"
] = cfg.torch_compile_backend
# DDP Config
if cfg.ddp_timeout:
training_arguments_kwargs["ddp_timeout"] = cfg.ddp_timeout
# see https://pytorch.org/docs/stable/generated/torch.nn.parallel.DistributedDataParallel.html
if cfg.ddp_bucket_cap_mb:
training_arguments_kwargs["ddp_bucket_cap_mb"] = cfg.ddp_bucket_cap_mb
if cfg.ddp_broadcast_buffers is not None:
training_arguments_kwargs["ddp_broadcast_buffers"] = cfg.ddp_broadcast_buffers
training_args = AxolotlTrainingArguments( # pylint: disable=unexpected-keyword-arg
max_steps=total_num_steps if cfg.max_steps else -1,
max_seq_length=cfg.sequence_len,
per_device_train_batch_size=cfg.micro_batch_size,
per_device_eval_batch_size=cfg.eval_batch_size
if cfg.eval_batch_size is not None
else cfg.micro_batch_size,
gradient_accumulation_steps=cfg.gradient_accumulation_steps,
eval_accumulation_steps=cfg.gradient_accumulation_steps,
num_train_epochs=cfg.num_epochs,
learning_rate=cfg.learning_rate,
output_dir=cfg.output_dir,
save_total_limit=cfg.save_total_limit if cfg.save_total_limit else 4,
load_best_model_at_end=(
(cfg.load_best_model_at_end is not False or cfg.early_stopping_patience)
and cfg.val_set_size > 0
and cfg.save_steps
and cfg.save_steps % cfg.eval_steps == 0
)
or False,
ddp_find_unused_parameters=False if cfg.ddp else None,
group_by_length=cfg.group_by_length,
report_to="wandb" if cfg.use_wandb else None,
run_name=cfg.wandb_run_id if cfg.use_wandb else None,
optim=cfg.optimizer if cfg.optimizer else "adamw_hf",
lr_scheduler_type=cfg.lr_scheduler
if cfg.lr_scheduler and cfg.lr_scheduler not in ("one_cycle", "log_sweep")
else "cosine",
weight_decay=cfg.weight_decay if cfg.weight_decay is not None else 0.0,
sample_packing=cfg.sample_packing if cfg.sample_packing else False,
sample_packing_seq_len_multiplier=cfg.micro_batch_size,
relora_steps=cfg.relora_steps,
relora_warmup_steps=cfg.relora_warmup_steps,
**training_arguments_kwargs,
)
trainer_kwargs = {}
if cfg.optimizer == "adamw_anyprecision":
if Path(cfg.torchdistx_path).exists():
sys.path.append(cfg.torchdistx_path)
importlib.import_module("torchdistx")
callbacks = []
callbacks.append(GPUStatsCallback(cfg))
if cfg.relora_steps:
callbacks.append(ReLoRACallback(cfg))
if cfg.local_rank == 0 and cfg.adapter in [
"lora",
"qlora",
]: # only save in rank 0
callbacks.append(SavePeftModelCallback)
if hasattr(model, "use_bettertransformer") and model.use_bettertransformer is True:
callbacks.append(SaveBetterTransformerModelCallback)
data_collator_kwargs = {
"padding": True, # True/"longest" is the default
}
if cfg.pad_to_sequence_len:
data_collator_kwargs["pad_to_multiple_of"] = 64 * math.ceil(
cfg.sequence_len / 64
)
else:
# A100 is best at 64, while others at 8. Let's use the larger so we don't have to check
# https://docs.nvidia.com/deeplearning/performance/dl-performance-matrix-multiplication/index.html
data_collator_kwargs["pad_to_multiple_of"] = 64
if cfg.is_llama_derived_model and cfg.landmark_attention:
from axolotl.monkeypatch.llama_landmark_attn import (
add_mem_tokens,
get_mem_id,
set_model_mem_id,
)
set_model_mem_id(model, tokenizer)
LOG.info("Adding landmark attention tokens to dataset")
for dataset in [train_dataset, eval_dataset]:
dataset = dataset.map(
partial(add_mem_tokens, mem_freq=50, mem_id=get_mem_id(tokenizer)),
batched=False,
num_proc=32,
)
trainer_cls = AxolotlTrainer
if cfg.lr_scheduler == "one_cycle" and (cfg.fsdp or cfg.adapter == "qlora"):
trainer_cls = OneCycleLRSchedulerTrainer
elif cfg.relora_steps:
trainer_cls = ReLoRATrainer
trainer = trainer_cls(
model=model,
train_dataset=train_dataset,
eval_dataset=eval_dataset,
args=training_args,
data_collator=DataCollatorForSeq2Seq(
tokenizer,
return_tensors="pt",
**data_collator_kwargs,
),
bench_data_collator=transformers.DataCollatorForSeq2Seq(
tokenizer,
return_tensors="pt",
**data_collator_kwargs,
),
callbacks=callbacks,
**trainer_kwargs,
)
if cfg.use_wandb and cfg.eval_table_size > 0:
LogPredictionCallback = log_prediction_callback_factory(trainer, tokenizer)
trainer.add_callback(LogPredictionCallback(cfg))
if cfg.do_bench_eval:
trainer.add_callback(bench_eval_callback_factory(trainer, tokenizer))
# TODO on_save callback to sync checkpoints to GCP/AWS in background
if cfg.early_stopping_patience:
early_stop_cb = EarlyStoppingCallback(
cfg.early_stopping_patience,
)
trainer.add_callback(early_stop_cb)
return trainer
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