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vall-e/docs/train.md
mrq 9901c4f8ca documentation under ./docs/
2024-11-05 16:11:01 -06:00

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Training Notes

Training is very dependent on:

  • the quality of your dataset.
    • clean utterances and accurate transcriptions go a long way.
    • a diverse dataset in prosidy and speakers help a ton.
  • how much data you have.
    • training from scratch requires upwards of 15K hours.
    • training new languages from the base model simply requires maybe ~2K hours each.
  • the bandwidth you quantized your audio to, as this affects the how many tokens are processed per step.
  • the underlying model architecture used.
    • some models behave better than others for a unified approach, others do not.

For single GPUs, simply running python3 -m vall_e.train --yaml="./training/config.yaml.

For multiple GPUs, or exotic distributed training:

  • with deepspeed backends, simply running deepspeed --module vall_e.train --yaml="./training/config.yaml" should handle the gory details.
  • with local backends, simply run torchrun --nnodes=1 --nproc-per-node={NUMOFGPUS} -m vall_e.train --yaml="./training/config.yaml"

You can enter save to save the state at any time, or quit to save and quit training.

The lr command will also let you adjust the learning rate on the fly. For example: lr 1.0e-3 will set the learning rate to 0.001.

Some additional flags can be passed as well:

  • --eval: only run the evaluation / validation pass, then exit afterwards.
  • --eval-random-text-prompts: use random text prompts for the evaluation pass, rather than the provided text prompts in the dataset.

Try Me

To quickly test if a configuration works, you can run python -m vall_e.models.ar_nar --yaml="./data/config.yaml"; a small trainer will overfit a provided utterance.

Finetuning

Finetuning can be done by training the full model, or using a LoRA.

Finetuning the full model is done the same way as training a model, but be sure to have the weights in the correct spot, as if you're loading them for inferencing.

For training a LoRA, add the following block to your config.yaml:

loras:
- name : "arbitrary name" # whatever you want
  rank: 128 # dimensionality of the LoRA
  alpha: 128 # scaling factor of the LoRA
  training: True

And that's it. Training of the LoRA is done with the same command. Depending on the rank and alpha specified, the loss may be higher than it should, as the LoRA weights are initialized to appropriately random values. I found rank and alpha of 128 works fine.

To export your LoRA weights, run python3 -m vall_e.export --lora --yaml="./training/config.yaml". You should be able to have the LoRA weights loaded from a training checkpoint automagically for inferencing, but export them just to be safe.

Training Under Windows

As training under deepspeed and Windows is not (easily) supported, under your config.yaml, simply change trainer.backend to local to use the local training backend.

Creature comforts like float16, amp, and multi-GPU training should work under the local backend, but extensive testing still needs to be done to ensure it all functions.

train.py

This script handles the VALL-E specific training code.

For the most part, this handles:

  • feeding the model a batch from the dataloader
  • performing evaluation / validation when requested
  • unloading the emb.qnt model when its not needed anymore