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WavLM

WavLM: Large-Scale Self-Supervised Pre-training for Full Stack Speech Processing

Official PyTorch implementation and pretrained models of WavLM

  • Dec 2021: An interesting speaker verification demo on HuggingFace. You can have a try!
  • Dec 2021: WavLM Large Release and HuggingFace Support
  • Nov 2021: release code and pretrained models (WavLM Base and WavLM Base+)
  • Oct 2021: release preprint in arXiv

Pre-Trained Models

Model Pre-training Dataset Fine-tuning Dataset Model
WavLM Base 960 hrs LibriSpeech - Azure Storage
Google Drive
WavLM Base+ 60k hrs Libri-Light + 10k hrs GigaSpeech + 24k hrs VoxPopuli - Azure Storage
Google Drive
WavLM Large 60k hrs Libri-Light + 10k hrs GigaSpeech + 24k hrs VoxPopuli - Azure Storage
Google Drive

Load Pre-Trained Models

import torch
from WavLM import WavLM, WavLMConfig

# load the pre-trained checkpoints
checkpoint = torch.load('/path/to/wavlm.pt')
cfg = WavLMConfig(checkpoint['cfg'])
model = WavLM(cfg)
model.load_state_dict(checkpoint['model'])
model.eval()

# extract the representation of last layer
wav_input_16khz = torch.randn(1,10000)
if cfg.normalize:
    wav_input_16khz = torch.nn.functional.layer_norm(wav_input_16khz , wav_input_16khz.shape)
rep = model.extract_features(wav_input_16khz)[0]

# extract the representation of each layer
wav_input_16khz = torch.randn(1,10000)
if cfg.normalize:
    wav_input_16khz = torch.nn.functional.layer_norm(wav_input_16khz , wav_input_16khz.shape)
rep, layer_results = model.extract_features(wav_input_16khz, output_layer=model.cfg.encoder_layers, ret_layer_results=True)[0]
layer_reps = [x.transpose(0, 1) for x, _ in layer_results]

HuggingFace and s3prl both support our models. It is very easy to fine-tune our models on different downstream tasks. We suggest you to extract representation of each layer and weighted sum the representations.

Universal Representation Evaluation on SUPERB

alt text

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Downstream Task Performance

We also evaluate our models on typical speech processing benchmarks.

Speaker Verification

Finetune the model with VoxCeleb2 dev data, and evaluate it on the VoxCeleb1

Model Fix pre-train Vox1-O Vox1-E Vox1-H
ECAPA-TDNN - 0.87 1.12 2.12
HuBERT large Yes 0.888 0.912 1.853
Wav2Vec2.0 (XLSR) Yes 0.915 0.945 1.895
UniSpeech-SAT large Yes 0.771 0.781 1.669
WavLM large Yes 0.59 0.65 1.328
WavLM large No 0.505 0.579 1.176
+Large Margin Finetune and Score Calibration
HuBERT large No 0.585 0.654 1.342
Wav2Vec2.0 (XLSR) No 0.564 0.605 1.23
UniSpeech-SAT large No 0.564 0.561 1.23
WavLM large (New) No 0.33 0.477 0.984

Speech Separation

Evaluation on the LibriCSS

Model 0S 0L OV10 OV20 OV30 OV40
Conformer (SOTA) 4.5 4.4 6.2 8.5 11 12.6
HuBERT base 4.7 4.6 6.1 7.9 10.6 12.3
UniSpeech-SAT base 4.4 4.4 5.4 7.2 9.2 10.5
UniSpeech-SAT large 4.3 4.2 5.0 6.3 8.2 8.8
WavLM base+ 4.5 4.4 5.6 7.5 9.4 10.9
WavLM large 4.2 4.1 4.8 5.8 7.4 8.5

Speaker Diarization

Evaluation on the CALLHOME

Model spk_2 spk_3 spk_4 spk_5 spk_6 spk_all
EEND-vector clustering 7.96 11.93 16.38 21.21 23.1 12.49
EEND-EDA clustering (SOTA) 7.11 11.88 14.37 25.95 21.95 11.84
HuBERT base 7.93 12.07 15.21 19.59 23.32 12.63
HuBERT large 7.39 11.97 15.76 19.82 22.10 12.40
UniSpeech-SAT large 5.93 10.66 12.9 16.48 23.25 10.92
WavLM Base 6.99 11.12 15.20 16.48 21.61 11.75
WavLm large 6.46 10.69 11.84 12.89 20.70 10.35

Speech Recogntion

Evaluate on the LibriSpeech

alt text

More Speech Pre-Trained Models

Please visit here for more interesting and effective pre-trained models

License

This project is licensed under the license found in the LICENSE file in the root directory of this source tree. Portions of the source code are based on the FAIRSEQ project.

Microsoft Open Source Code of Conduct

Reference

If you find our work is useful in your research, please cite the following paper:

@article{Chen2021WavLM,
  title   = {WavLM: Large-Scale Self-Supervised  Pre-training   for Full Stack Speech Processing},
  author  = {Sanyuan Chen and Chengyi Wang and Zhengyang Chen and Yu Wu and Shujie Liu and Zhuo Chen and Jinyu Li and Naoyuki Kanda and Takuya Yoshioka and Xiong Xiao and Jian Wu and Long Zhou and Shuo Ren and Yanmin Qian and Yao Qian and Jian Wu and Michael Zeng and Furu Wei},
  eprint={2110.13900},
  archivePrefix={arXiv},
  primaryClass={cs.CL},
  year={2021}
}

Contact Information

For help or issues using WavLM models, please submit a GitHub issue.

For other communications related to WavLM, please contact Yu Wu ([email protected]).