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run_simple_mcore_train_loop.py
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run_simple_mcore_train_loop.py
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import os
import torch
from torch.optim import Adam
from torch.utils.data import DataLoader
from functools import partial
from pathlib import Path
from megatron.core import parallel_state
from megatron.core import dist_checkpointing
from megatron.core.pipeline_parallel.schedules import get_forward_backward_func
from megatron.core.tensor_parallel.random import model_parallel_cuda_manual_seed
from megatron.core.transformer.transformer_config import TransformerConfig
from megatron.core.models.gpt.gpt_model import GPTModel
from megatron.core.models.gpt.gpt_layer_specs import get_gpt_layer_local_spec
from megatron.core.datasets.utils import Split
from megatron.core.datasets.gpt_dataset import GPTDatasetConfig, MockGPTDataset
def initialize_distributed(tensor_model_parallel_size = 1, pipeline_model_parallel_size = 1):
parallel_state.destroy_model_parallel()
# Torch setup for distributed training
rank = int(os.environ['LOCAL_RANK'])
world_size = torch.cuda.device_count()
torch.cuda.set_device(rank)
torch.distributed.init_process_group(world_size=world_size, rank=rank)
# Megatron core distributed training initialization
parallel_state.initialize_model_parallel(tensor_model_parallel_size, pipeline_model_parallel_size)
def model_provider():
"""Build the model."""
transformer_config = TransformerConfig(
num_layers=2,
hidden_size=12,
num_attention_heads=4,
use_cpu_initialization=True,
pipeline_dtype=torch.float32)
gpt_model = GPTModel(
config=transformer_config,
transformer_layer_spec=get_gpt_layer_local_spec(),
vocab_size=100,
max_sequence_length=64)
return gpt_model
def get_train_data_iterator():
config = GPTDatasetConfig(
random_seed = 0,
sequence_length = 64,
blend=[],
mock=True,
reset_position_ids=False,
reset_attention_mask=False,
eod_mask_loss=False,
tokenizer="dummy")
training_data= MockGPTDataset(Split.train, config)
train_dataloader = DataLoader(training_data, batch_size=8, shuffle=True)
train_iterator = iter(train_dataloader)
return train_iterator
def forward_step_func(data_iterator, model):
def loss_func(loss_mask: torch.Tensor, output_tensor: torch.Tensor):
losses = output_tensor.float()
loss_mask = loss_mask.view(-1).float()
loss = torch.sum(losses.view(-1) * loss_mask) / loss_mask.sum()
# If you have data parallel reduce loss across data parallel groups.
# If pipeline parallel, loss computation is done only in last stage.
return loss, {'lm loss': loss}
data = next(data_iterator)
tokens = data['tokens'].to(device)
attention_mask = data['attention_mask'].to(device)
position_ids = data['position_ids'].to(device)
labels = data['labels'].to(device)
loss_mask = data['loss_mask'].to(device)
output_tensor = model(tokens, position_ids, attention_mask,
labels=labels)
return output_tensor, partial(loss_func, loss_mask)
def save_distributed_checkpoint(checkpoint_path, gpt_model):
sharded_state_dict = gpt_model.sharded_state_dict(prefix='')
dist_checkpointing.save(sharded_state_dict=sharded_state_dict, checkpoint_dir=checkpoint_path)
def load_distributed_checkpoint(checkpoint_path, gpt_model):
sharded_state_dict=gpt_model.sharded_state_dict(prefix='')
checkpoint = dist_checkpointing.load(sharded_state_dict=sharded_state_dict, checkpoint_dir=checkpoint_path)
gpt_model.load_state_dict(checkpoint)
return gpt_model
if __name__ == "__main__":
initialize_distributed(tensor_model_parallel_size=2, pipeline_model_parallel_size=1)
model_parallel_cuda_manual_seed(123)
gpt_model = model_provider()
device = torch.device("cuda")
gpt_model.to(device)
optim = Adam(gpt_model.parameters())
train_iterator = get_train_data_iterator()
forward_backward_func = get_forward_backward_func()
# Running the model for 5 iterations
for _ in range(5):
optim.zero_grad()
losses_reduced = forward_backward_func(
forward_step_func=forward_step_func,
data_iterator=train_iterator,
model=gpt_model,
num_microbatches=1,
seq_length=64,
micro_batch_size=8,
decoder_seq_length=64,
forward_only=False)
optim.step()
print(f'Losses reduced : {losses_reduced}')
# Saving the model
ckpt_path = os.getcwd() + '/ckpt'
Path(ckpt_path).mkdir(exist_ok=True)
save_distributed_checkpoint(gpt_model=gpt_model, checkpoint_path=ckpt_path)
# Loading the model
gpt_model = load_distributed_checkpoint(gpt_model=gpt_model, checkpoint_path=ckpt_path)
gpt_model.to(device)
print('Successfully loaded the model')