Important
You are viewing the NeMo 2.0 documentation. This release introduces significant changes to the API and a new library, NeMo Run. We are currently porting all features from NeMo 1.0 to 2.0. For documentation on previous versions or features not yet available in 2.0, please refer to the NeMo 24.07 documentation.
DeepSeek V3#
Released in December 2024, DeepSeek V3 advances the Mixture-of-Experts architecture with cutting-edge innovations such as auxiliary-loss-free load balancing and node-limited routing. The model also features multi-token prediction and FP8 training. DeepSeek V3 has 37B active parameters out of 671B total parameters.
We provide pre-defined recipes for finetuning DeepSeek V3 models using NeMo 2.0 and NeMo-Run.
These recipes configure a run.Partial for one of the nemo.collections.llm api functions introduced in NeMo 2.0.
The recipes are hosted in deepseek_v3
NeMo 2.0 Finetuning Recipes#
Note
The finetuning recipes use the SquadDataModule for the data argument. You can replace the SquadDataModule with your custom dataset.
To import the HF model and convert to NeMo 2.0 format, DeepSeek V3 is slightly more involved than other models since HF does not officially support the FP8 quantization scheme. Here are the steps you need to follow to create a BF16 HF checkpoint before converting to NeMo 2.0.
# clone DeepSeek V3 weights from HF (This can take hours)
git lfs install
git clone https://huggingface.co/deepseek-ai/DeepSeek-V3-Base
# clone DeepSeek-V3 code
git clone https://github.com/deepseek-ai/DeepSeek-V3.git
# make a modification for the latest version of transformers
cd DeepSeek-V3/inference
sed -i '88{s/new_safetensor_file/new_safetensor_file, metadata={"format": "pt"}/}' fp8_cast_bf16.py
# convert weights
python fp8_cast_bf16.py --input-fp8-hf-path ../../DeepSeek-V3-Base --output-bf16-hf-path ../../DeepSeek-V3-Base-BF16
# copy other files
cd ../..
cp DeepSeek-V3-Base/{tokenizer_config.json,tokenizer.json,modeling_deepseek.py,configuration_deepseek.py} DeepSeek-V3-Base-BF16/
# copy config.json and remove `quantization_config`:
jq 'del(.quantization_config)' DeepSeek-V3-Base/config.json > DeepSeek-V3-Base-BF16/config.json
from nemo.collections import llm
llm.import_ckpt(model=llm.DeepSeekV3Model(llm.DeepSeekV3Config()), source="hf:///absolute/path/to/DeepSeek-V3-Base-BF16")
By default, the non-instruct version of the model is loaded. To load a different model, set
finetune.resume.restore_config.path=nemo://<hf model id> or
finetune.resume.restore_config.path=<local model path>
We provide an example below on how to invoke the default recipe and override the data argument:
from nemo.collections import llm
recipe = llm.deepseek_v3.finetune_recipe(
name="deepseek_v3_finetuning",
dir=f"/path/to/checkpoints",
num_nodes=6,
num_gpus_per_node=8,
peft_scheme='lora', # 'lora', 'dora', 'none'
)
# # To override the data argument
# dataloader = a_function_that_configures_your_custom_dataset(
# gbs=gbs,
# mbs=mbs,
# seq_length=recipe.model.config.seq_length,
# )
# recipe.data = dataloader
By default, the finetuning recipe will run LoRA finetuning with LoRA applied to all linear layers in MLA (none in the MoE layer).
To finetune the entire model without LoRA, set peft_scheme='none' in the recipe argument.
Note
The configuration in the recipes is done using the NeMo-Run run.Config and run.Partial configuration objects. Please review the NeMo-Run documentation to learn more about its configuration and execution system.
Once you have your final configuration ready, you can execute it on any of the NeMo-Run supported executors. The simplest is the local executor, which just runs the pretraining locally in a separate process. You can use it as follows:
import nemo_run as run
run.run(recipe, executor=run.LocalExecutor())
Additionally, you can also run it directly in the same Python process as follows:
run.run(recipe, direct=True)