# 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 os.path import basename, splitext import nemo_run as run from nemo.collections.llm.recipes.llama4_e128 import finetune_recipe, model from nemo.collections.llm.recipes.precision.mixed_precision import bf16_with_fp8_mixed from nemo.lightning.run.plugins import MemoryProfilePlugin, NsysPlugin from ..argument_parser import parse_additional_slurm_params, parse_cli_args from ..executors import slurm_executor from ..helpers import ( args_sanity_check, build_perf_env_plugin, get_user_configs, set_exp_logging_configs, set_primary_perf_configs, ) from ..utils import ( args_sanity_check, get_user_configs, hf_tokenizer, import_ckpt_experiment, prepare_squad_dataset_experiment, set_exp_logging_configs, set_primary_perf_configs, slurm_executor, ) HF_MODEL_URI = "meta-llama/Llama-4-Maverick-17B-128E-Instruct" # Set this to True if checkpoint is available at 'NEMO_HOME'. If set to False, # extra Slurm job will be scheduled. In this case, if checkpoint is available # at 'NEMO_HOME', fine-tuning job will use this checkpoint, else, it will be # downloaded from HuggingFace SKIP_IMPORT = False # Set this to True if dataset is already downloaded. If set to False, # dataset will be downloaded from HuggingFace SKIP_DATASET_DOWNLOAD = False def override_recipe_configs( args: str, num_nodes: int, mbs: int, gbs: int, tp_size: int, pp_size: int, cp_size: int, vp_size: int, ep_size: int, etp_size: int, enable_cuda_graphs: bool, use_mcore_fsdp: bool, recompute_layers: int, activation_offload_layers: int, ): """ Llama4 e128 fine-tuning recipe aimed at achieving best possible performance. NOTE: Use fp8 precision training with caution. It might not give desirable results. """ finetuning_scheme = "none" if args.finetuning == "sft" else args.finetuning recipe = finetune_recipe(peft_scheme=finetuning_scheme, performance_mode=True, packed_sequence=True) recipe = set_primary_perf_configs( recipe, finetuning_scheme, num_nodes, args.gpus_per_node, mbs, gbs, args.max_steps, tp_size, pp_size, cp_size, vp_size, ep_size, etp_size, enable_cuda_graphs=enable_cuda_graphs, use_mcore_fsdp=use_mcore_fsdp, use_fsdp_double_buffer=args.use_fsdp_double_buffer, use_user_buffer_registration=args.use_user_buffer_registration, recompute_layers=recompute_layers, activation_offload_layers=activation_offload_layers, compute_dtype=args.compute_dtype, fp8_recipe=args.fp8_recipe, use_te_act_func=args.use_te_act_func, act_func_fp8_input_store=args.act_func_fp8_input_store, ) recipe = set_exp_logging_configs( recipe, finetuning_scheme, "llm", "llama4", args.tensorboard, args.wandb, args.wandb_prj_name, args.wandb_job_name, ) # data module configs recipe.data.tokenizer = hf_tokenizer(HF_MODEL_URI) # Compute dtype configs if args.compute_dtype.lower() == "fp8": recipe.trainer.plugins = bf16_with_fp8_mixed() recipe.trainer.plugins.grad_reduce_in_fp32 = False recipe.model.config.cross_entropy_fusion_impl = "te" recipe.model.config.cross_entropy_loss_fusion = True recipe.model.config.apply_rope_fusion = True recipe.model.config.moe_permute_fusion = True return recipe if __name__ == "__main__": args = parse_cli_args().parse_args() args_sanity_check(args) # Parse additional SLURM parameters if provided additional_slurm_params = None if hasattr(args, 'additional_slurm_params') and args.additional_slurm_params: additional_slurm_params = parse_additional_slurm_params(args.additional_slurm_params) kwargs = get_user_configs(args.gpu.lower(), "sft", "llama4", "e128", args) ( num_nodes, mbs, gbs, tp_size, pp_size, cp_size, vp_size, ep_size, etp_size, enable_cuda_graphs, use_mcore_fsdp, recompute_layers, activation_offload_layers, ) = kwargs[0:13] recipe = override_recipe_configs( args, num_nodes, mbs, gbs, tp_size, pp_size, cp_size, vp_size, ep_size, etp_size, enable_cuda_graphs, use_mcore_fsdp, recompute_layers, activation_offload_layers, ) exp_config = ( f"{num_nodes}nodes_tp{tp_size}_pp{pp_size}_cp{cp_size}_vp{vp_size}_ep{ep_size}_etp{etp_size}_{mbs}mbs_{gbs}gbs" ) exp_name = f"{splitext(basename(__file__))[0]}_{args.compute_dtype}_{exp_config}" plugins = [build_perf_env_plugin(args, pp_size=pp_size)] if args.enable_nsys: plugins.append(NsysPlugin(start_step=5, end_step=6)) if args.enable_memory_profile: assert args.memory_profile_out_path is not None plugins.append(MemoryProfilePlugin(dir=args.memory_profile_out_path)) executor = slurm_executor( args.account, args.partition, args.log_dir, num_nodes, args.gpus_per_node, args.time_limit, args.container_image, custom_mounts=args.custom_mounts, custom_env_vars={}, hf_token=args.hf_token, nemo_home=args.nemo_home, wandb_key=args.wandb_key, additional_slurm_params=additional_slurm_params, ) with run.Experiment(exp_name) as exp: if not SKIP_IMPORT: assert args.hf_token is not None, "HF token is required for importing checkpoint from HuggingFace" exp.add(*import_ckpt_experiment(executor, model(), source=f"hf://{HF_MODEL_URI}")) if not SKIP_DATASET_DOWNLOAD: exp.add( *prepare_squad_dataset_experiment(executor, HF_MODEL_URI, seq_length=4096, nemo_home=args.nemo_home) ) exp.add( recipe, executor=executor, name=exp_name, plugins=plugins, ) if not args.dryrun: exp.run(sequential=True, detach=args.detach) else: exp.dryrun()