VoxCeleb trainer
This repository contains the framework for training speaker recognition models described in the paper 'In defence of metric learning for speaker recognition'.
Dependencies
pip install -r requirements.txt
Data preparation
The following script can be used to download and prepare the VoxCeleb dataset for training.
python ./dataprep.py --save_path data --download --user USERNAME --password PASSWORD
python ./dataprep.py --save_path data --extract
python ./dataprep.py --save_path data --convert
In order to use data augmentation, also run:
python ./dataprep.py --save_path data --augment
In addition to the Python dependencies, wget and ffmpeg must be installed on the system.
Training examples
- AM-Softmax:
python ./trainSpeakerNet.py --model ResNetSE34L --log_input True --encoder_type SAP --trainfunc amsoftmax --save_path exps/exp1 --nClasses 5994 --batch_size 200 --scale 30 --margin 0.3
- Angular prototypical:
python ./trainSpeakerNet.py --model ResNetSE34L --log_input True --encoder_type SAP --trainfunc angleproto --save_path exps/exp2 --nPerSpeaker 2 --batch_size 200
The arguments can also be passed as --config path_to_config.yaml. Note that the configuration file overrides the arguments passed via command line.
Pretrained models
A pretrained model, described in [1], can be downloaded from here.
You can check that the following script returns: EER 2.1792. You will be given an option to save the scores.
python ./trainSpeakerNet.py --eval --model ResNetSE34L --log_input True --trainfunc angleproto --save_path exps/test --eval_frames 400 --initial_model baseline_lite_ap.model
A larger model trained with online data augmentation, described in [2], can be downloaded from here.
The following script should return: EER 1.1771.
python ./trainSpeakerNet.py --eval --model ResNetSE34V2 --log_input True --encoder_type ASP --n_mels 64 --trainfunc softmaxproto --save_path exps/test --eval_frames 400 --initial_model baseline_v2_ap.model
Implemented loss functions
Softmax (softmax)
AM-Softmax (amsoftmax)
AAM-Softmax (aamsoftmax)
GE2E (ge2e)
Prototypical (proto)
Triplet (triplet)
Angular Prototypical (angleproto)
Implemented models and encoders
ResNetSE34L (SAP, ASP)
ResNetSE34V2 (SAP, ASP)
VGGVox40 (SAP, TAP, MAX)
Data augmentation
--augment True enables online data augmentation, described in [2].
Adding new models and loss functions
You can add new models and loss functions to models and loss directories respectively. See the existing definitions for examples.
Accelerating training
-
Use
--mixedprecflag to enable mixed precision training. This is recommended for Tesla V100, GeForce RTX 20 series or later models. -
Use
--distributedflag to enable distributed training.-
GPU indices should be set using the command
export CUDA_VISIBLE_DEVICES=0,1,2,3. -
Evaluation is not performed between epochs during training.
-
If you are running more than one distributed training session, you need to change the port.
-
At every epoch, the whole dataset is passed through each GPU once. Therefore
test_intervalandmax_epochsmust be divided by the number of GPUs for the same number of forward passes as single GPU training.
-
Data
The VoxCeleb datasets are used for these experiments.
The train list should contain the identity and the file path, one line per utterance, as follows:
id00000 id00000/youtube_key/12345.wav
id00012 id00012/21Uxsk56VDQ/00001.wav
The train list for VoxCeleb2 can be download from here and the test list for VoxCeleb1 from here.
Replicating the results from the paper
- Model definitions
VGG-M-40in [1] isVGGVoxin the repository.Thin ResNet-34in [1] isResNetSE34in the repository.Fast ResNet-34in [1] isResNetSE34Lin the repository.H / ASPin [2] isResNetSE34V2in the repository.
-
For metric learning objectives, the batch size in the paper is
nPerSpeakermultiplied bybatch_sizein the code. For the batch size of 800 in the paper, use--nPerSpeaker 2 --batch_size 400,--nPerSpeaker 3 --batch_size 266, etc. -
The models have been trained with
--max_frames 200and evaluated with--max_frames 400. -
You can get a good balance between speed and performance using the configuration below.
python ./trainSpeakerNet.py --model ResNetSE34L --trainfunc angleproto --batch_size 400 --nPerSpeaker 2
Citation
Please cite [1] if you make use of the code. Please see here for the full list of methods used in this trainer.
[1] In defence of metric learning for speaker recognition
@inproceedings{chung2020in,
title={In defence of metric learning for speaker recognition},
author={Chung, Joon Son and Huh, Jaesung and Mun, Seongkyu and Lee, Minjae and Heo, Hee Soo and Choe, Soyeon and Ham, Chiheon and Jung, Sunghwan and Lee, Bong-Jin and Han, Icksang},
booktitle={Interspeech},
year={2020}
}
[2] Clova baseline system for the VoxCeleb Speaker Recognition Challenge 2020
@article{heo2020clova,
title={Clova baseline system for the {VoxCeleb} Speaker Recognition Challenge 2020},
author={Heo, Hee Soo and Lee, Bong-Jin and Huh, Jaesung and Chung, Joon Son},
journal={arXiv preprint arXiv:2009.14153},
year={2020}
}
License
Copyright (c) 2020-present NAVER Corp.
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