# Copyright (c) 2025, NVIDIA CORPORATION. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from typing import Optional import lightning.pytorch as pl import nemo_run as run import torch from lightning.pytorch.callbacks.callback import Callback from megatron.core.distributed import DistributedDataParallelConfig from megatron.core.optimizer import OptimizerConfig from nemo import lightning as nl from nemo.collections.llm.api import finetune, pretrain from nemo.collections.llm.peft import PEFT_STR2CLS from nemo.collections.llm.recipes.finetune_default import default_finetune_trainer, nemo_resume from nemo.collections.llm.recipes.log.default import default_log, default_resume, tensorboard_logger from nemo.collections.llm.recipes.precision.mixed_precision import bf16_mixed from nemo.collections.llm.t5.data.mock import MockDataModule from nemo.collections.llm.t5.data.squad import SquadDataModule from nemo.collections.llm.t5.model.t5 import T5Config11B, T5Model from nemo.lightning.pytorch.optim.lr_scheduler import WarmupAnnealingScheduler from nemo.lightning.pytorch.optim.megatron import MegatronOptimizerModule from nemo.utils.exp_manager import TimingCallback NAME = "t5_11b" @run.cli.factory(name=NAME) def model() -> run.Config[pl.LightningModule]: """ Factory function to create a T5 11B model configuration. Returns: run.Config[pl.LightningModule]: Configuration for the T5 11B model. Examples: CLI usage: $ nemo llm pretrain model=t5_11b ... Python API usage: >>> model_config = model() >>> print(model_config) """ return run.Config(T5Model, config=run.Config(T5Config11B)) def trainer( tensor_parallelism: int = 4, pipeline_parallelism: int = 1, pipeline_parallelism_type: Optional[torch.dtype] = None, virtual_pipeline_parallelism: Optional[int] = None, context_parallelism: int = 1, sequence_parallelism: bool = False, num_nodes: int = 20, num_gpus_per_node: int = 8, max_steps: int = 1000000, callbacks: Optional[list[run.Config[Callback]]] = None, ) -> run.Config[nl.Trainer]: """ Configure the NeMo Lightning Trainer for T5 model. This function sets up the distributed training strategy and other training parameters. Args: tensor_parallelism (int): Degree of tensor model parallelism. pipeline_parallelism (int): Degree of pipeline model parallelism. pipeline_parallelism_type (Optional[torch.dtype]): Data type for pipeline parallelism. virtual_pipeline_parallelism (Optional[int]): Size of virtual pipeline parallelism. context_parallelism (int): Degree of context parallelism. sequence_parallelism (bool): Whether to use sequence parallelism. num_nodes (int): Number of compute nodes to use. num_gpus_per_node (int): Number of GPUs per node. max_steps (int): Maximum number of training steps. callbacks (Optional[list[run.Config[Callback]]]): List of callback configurations. Returns: run.Config[nl.Trainer]: Configuration for the NeMo Lightning Trainer. Examples: CLI usage: $ nemo llm pretrain trainer=t5_11b ... Python API usage: >>> trainer_config = trainer(num_nodes=2, num_gpus_per_node=8) >>> print(trainer_config) Note: For more information on distributed training strategies, refer to the NeMo documentation on multi-GPU and multi-node training. """ strategy = run.Config( nl.MegatronStrategy, tensor_model_parallel_size=tensor_parallelism, pipeline_model_parallel_size=pipeline_parallelism, pipeline_dtype=pipeline_parallelism_type, virtual_pipeline_model_parallel_size=virtual_pipeline_parallelism, context_parallel_size=context_parallelism, sequence_parallel=sequence_parallelism, gradient_as_bucket_view=True, ckpt_async_save=True, ckpt_parallel_load=True, ddp=run.Config( DistributedDataParallelConfig, check_for_nan_in_grad=True, grad_reduce_in_fp32=True, overlap_grad_reduce=True, overlap_param_gather=True, ), ) trainer = run.Config( nl.Trainer, accelerator="gpu", accumulate_grad_batches=1, callbacks=callbacks, devices=num_gpus_per_node, limit_test_batches=50, limit_val_batches=32, log_every_n_steps=10, max_steps=max_steps, num_nodes=num_nodes, plugins=bf16_mixed(), strategy=strategy, use_distributed_sampler=False, val_check_interval=2000, ) return trainer @run.cli.factory(target=pretrain, name=NAME) def pretrain_recipe( dir: Optional[str] = None, name: str = "default", num_nodes: int = 20, num_gpus_per_node: int = 8, fn=pretrain ) -> run.Partial: """ Create a pre-training recipe for T5 11b model. This function sets up a complete configuration for pre-training, including model, trainer, data, logging, optimization, and resumption settings. Args: dir (Optional[str]): Directory for saving logs and checkpoints. name (str): Name of the pre-training run. num_nodes (int): Number of compute nodes to use. num_gpus_per_node (int): Number of GPUs per node. fn (Callable): The pre-training function to use. Returns: run.Partial: Partial configuration for pre-training. Examples: CLI usage: $ nemo llm pretrain --factory t5_11b $ nemo llm pretrain --factory "t5_11b(num_nodes=2, name='my_pretrain')" Python API usage: >>> recipe = pretrain_recipe(name="t5_11b_pretrain", num_nodes=2) >>> print(recipe) """ opt_config = run.Config( OptimizerConfig, optimizer='adam', lr=0.0001, use_distributed_optimizer=True, bf16=True, weight_decay=0.01, ) lr_scheduler = run.Config( WarmupAnnealingScheduler, warmup_steps=None, warmup_ratio=0.01, max_steps=1000000, min_lr=0.00001, ) return run.Partial( fn, model=model(), trainer=trainer( num_nodes=num_nodes, num_gpus_per_node=num_gpus_per_node, callbacks=[run.Config(TimingCallback)], ), data=run.Config( MockDataModule, seq_length=512, seq_length_dec=128, global_batch_size=1920, micro_batch_size=24 ), log=default_log(dir=dir, name=name, tensorboard_logger=tensorboard_logger(name=name)), optim=run.Config(MegatronOptimizerModule, config=opt_config, lr_scheduler=lr_scheduler), resume=default_resume(), ) @run.cli.factory(target=finetune, name=NAME) def finetune_recipe( checkpoint_path: str = "", dir: Optional[str] = None, name: str = "default", num_nodes: int = 1, num_gpus_per_node: int = 8, peft_scheme: Optional[str] = 'lora', ) -> run.Partial: """ Create a fine-tuning recipe for T5 11B model. This function sets up a complete configuration for fine-tuning, including model, trainer, data, logging, optimization, and resumption settings. The recipe uses LoRA (Low-Rank Adaptation) for efficient fine-tuning, unless peft_scheme is set to None. Args: checkpoint_path (str): Path to pretrained checkpoint dir (Optional[str]): Directory for saving logs and checkpoints. name (str): Name of the fine-tuning run. num_nodes (int): Number of compute nodes to use. num_gpus_per_node (int): Number of GPUs per node. peft_scheme (Optional[str]): Name of the peft scheme to use for fine-tuning. Allowed values: 'lora'/'dora'/'none'/None. Returns: run.Partial: Partial configuration for fine-tuning. Examples: CLI usage: $ nemo llm finetune --factory t5_11b Python API usage: >>> recipe = finetune_recipe(name="t5_11b_finetune", num_nodes=1) >>> print(recipe) Note: This recipe uses the SQuAD dataset for fine-tuning. """ opt_config = run.Config( OptimizerConfig, optimizer='adam', lr=0.0001, use_distributed_optimizer=True, bf16=True, weight_decay=0.01, ) lr_scheduler = run.Config( WarmupAnnealingScheduler, warmup_steps=50, max_steps=2000, min_lr=0.00001, ) recipe = run.Partial( finetune, model=model(), trainer=default_finetune_trainer( num_nodes=num_nodes, num_gpus_per_node=num_gpus_per_node, ), data=run.Config( SquadDataModule, seq_length=512, seq_length_dec=128, global_batch_size=128, micro_batch_size=1 ), log=default_log(dir=dir, name=name, tensorboard_logger=tensorboard_logger(name=name)), optim=run.Config(MegatronOptimizerModule, config=opt_config, lr_scheduler=lr_scheduler), resume=nemo_resume(checkpoint_path), ) if peft_scheme is None or peft_scheme.lower() == 'none': recipe.trainer.strategy.tensor_model_parallel_size = 4 recipe.optim.config.lr = 5e-6 elif peft_scheme.lower() in ['lora', 'dora']: recipe.peft = run.Config(PEFT_STR2CLS[peft_scheme.lower()]) recipe.optim.config.lr = 1e-4 else: raise ValueError(f"Unrecognized peft scheme: {peft_scheme}") return recipe