This folder contains instructions to fine-tune Meta Llama 3 on a
using the canonical finetuning script in the llama-recipes package.
If you are new to fine-tuning techniques, check out an overview:
Tip
If you want to try finetuning Meta Llama 3 with Huggingface's trainer, here is a Jupyter notebook with an example
Tip
All the setting defined in config files can be passed as args through CLI when running the script, there is no need to change from config files directly.
- Training config file is the main config file that helps to specify the settings for our run and can be found in configs folder
It lets us specify the training settings for everything from model_name
to dataset_name
, batch_size
and so on. Below is the list of supported settings:
model_name: str="PATH/to/Model"
tokenizer_name: str=None
enable_fsdp: bool=False
low_cpu_fsdp: bool=False
run_validation: bool=True
batch_size_training: int=4
batching_strategy: str="packing" #alternative: padding
context_length: int=4096
gradient_accumulation_steps: int=1
gradient_clipping: bool = False
gradient_clipping_threshold: float = 1.0
num_epochs: int=3
max_train_step: int=0
max_eval_step: int=0
num_workers_dataloader: int=1
lr: float=1e-4
weight_decay: float=0.0
gamma: float= 0.85
seed: int=42
use_fp16: bool=False
mixed_precision: bool=True
val_batch_size: int=1
dataset = "samsum_dataset"
peft_method: str = "lora" # None,llama_adapter, prefix
use_peft: bool=False
output_dir: str = "PATH/to/save/PEFT/model"
freeze_layers: bool = False
num_freeze_layers: int = 1
quantization: bool = False
one_gpu: bool = False
save_model: bool = True
dist_checkpoint_root_folder: str="PATH/to/save/FSDP/model" # will be used if using FSDP
dist_checkpoint_folder: str="fine-tuned" # will be used if using FSDP
save_optimizer: bool=False # will be used if using FSDP
use_fast_kernels: bool = False # Enable using SDPA from PyTroch Accelerated Transformers, make use Flash Attention and Xformer memory-efficient kernels
use_wandb: bool = False # Enable wandb for experient tracking
save_metrics: bool = False # saves training metrics to a json file for later plotting
flop_counter: bool = False # Enable flop counter to measure model throughput, can not be used with pytorch profiler at the same time.
flop_counter_start: int = 3 # The step to start profiling, default is 3, which means after 3 steps of warmup stage, the profiler will start to count flops.
use_profiler: bool = False # Enable pytorch profiler, can not be used with flop counter at the same time.
profiler_dir: str = "PATH/to/save/profiler/results" # will be used if using profiler
-
Datasets config file provides the available options for datasets.
-
peft config file provides the supported PEFT methods and respective settings that can be modified. We currently support LoRA and Llama-Adapter. Please note that LoRA is the only technique which is supported in combination with FSDP.
-
FSDP config file provides FSDP settings such as:
-
mixed_precision
boolean flag to specify using mixed precision, defatults to true. -
use_fp16
boolean flag to specify using FP16 for mixed precision, defatults to False. We recommond not setting this flag, and only setmixed_precision
that will useBF16
, this will help with speed and memory savings while avoiding challenges of scaler accuracies withFP16
. -
sharding_strategy
this specifies the sharding strategy for FSDP, it can be:-
FULL_SHARD
that shards model parameters, gradients and optimizer states, results in the most memory savings. -
SHARD_GRAD_OP
that shards gradinets and optimizer states and keeps the parameters after the firstall_gather
. This reduces communication overhead specially if you are using slower networks more specifically beneficial on multi-node cases. This comes with the trade off of higher memory consumption. -
NO_SHARD
this is equivalent to DDP, does not shard model parameters, gradinets or optimizer states. It keeps the full parameter after the firstall_gather
. -
HYBRID_SHARD
available on PyTorch Nightlies. It does FSDP within a node and DDP between nodes. It's for multi-node cases and helpful for slower networks, given your model will fit into one node.
-
-
-
checkpoint_type
specifies the state dict checkpoint type for saving the model.FULL_STATE_DICT
streams state_dict of each model shard from a rank to CPU and assembels the full state_dict on CPU.SHARDED_STATE_DICT
saves one checkpoint per rank, and enables the re-loading the model in a different world size. -
fsdp_activation_checkpointing
enables activation checkpoining for FSDP, this saves significant amount of memory with the trade off of recomputing itermediate activations during the backward pass. The saved memory can be re-invested in higher batch sizes to increase the throughput. We recommond you use this option. -
pure_bf16
it moves the model toBFloat16
and ifoptimizer
is set toanyprecision
then optimizer states will be kept inBFloat16
as well. You can use this option if necessary.
You can enable W&B experiment tracking by using use_wandb
flag as below. You can change the project name, entity and other wandb.init
arguments in wandb_config
.
python -m llama_recipes.finetuning --use_peft --peft_method lora --quantization --model_name /patht_of_model_folder/8B --output_dir Path/to/save/PEFT/model --use_wandb
You'll be able to access a dedicated project or run link on wandb.ai and see your dashboard like the one below.
To help with benchmarking effort, we are adding the support for counting the FLOPS during the fine-tuning process. You can achieve this by setting --flop_counter
when launching your single/multi GPU fine-tuning. Use --flop_counter_start
to choose which step to count the FLOPS. It is recommended to allow a warm-up stage before using the FLOPS counter.
Similarly, you can set --use_profiler
flag and pass a profiling output path using --profiler_dir
to capture the profile traces of your model using PyTorch profiler. To get accurate profiling result, the pytorch profiler requires a warm-up stage and the current config is wait=1, warmup=2, active=3, thus the profiler will start the profiling after step 3 and will record the next 3 steps. Therefore, in order to use pytorch profiler, the --max-train-step has been greater than 6. The pytorch profiler would be helpful for debugging purposes. However, the --flop_counter
and --use_profiler
can not be used in the same time to ensure the measurement accuracy.