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# Leveraging Content-based Features from Multiple Acoustic Models for Singing Voice Conversion | |
[![arXiv](https://img.shields.io/badge/arXiv-Paper-<COLOR>.svg)](https://arxiv.org/abs/2310.11160) | |
[![demo](https://img.shields.io/badge/SVC-Demo-red)](https://www.zhangxueyao.com/data/MultipleContentsSVC/index.html) | |
[![hf](https://img.shields.io/badge/%F0%9F%A4%97%20HuggingFace-Models-pink)](https://huggingface.co/amphion/singing_voice_conversion) | |
[![hf](https://img.shields.io/badge/%F0%9F%A4%97%20HuggingFace-Spaces-yellow)](https://huggingface.co/spaces/amphion/singing_voice_conversion) | |
[![openxlab](https://cdn-static.openxlab.org.cn/app-center/openxlab_app.svg)](https://openxlab.org.cn/apps/detail/Amphion/singing_voice_conversion) | |
<br> | |
<div align="center"> | |
<img src="../../../imgs/svc/MultipleContentsSVC.png" width="85%"> | |
</div> | |
<br> | |
This is the official implementation of the paper "[Leveraging Diverse Semantic-based Audio Pretrained Models for Singing Voice Conversion](https://arxiv.org/abs/2310.11160)" (2024 IEEE Spoken Language Technology Workshop). Specially, | |
- The muptile content features are from [Whipser](https://github.com/wenet-e2e/wenet) and [ContentVec](https://github.com/auspicious3000/contentvec). | |
- The acoustic model is based on Bidirectional Non-Causal Dilated CNN (called `DiffWaveNetSVC` in Amphion), which is similar to [WaveNet](https://arxiv.org/pdf/1609.03499.pdf), [DiffWave](https://openreview.net/forum?id=a-xFK8Ymz5J), and [DiffSVC](https://ieeexplore.ieee.org/document/9688219). | |
- The vocoder is [BigVGAN](https://github.com/NVIDIA/BigVGAN) architecture and we fine-tuned it in over 120 hours singing voice data. | |
## A Little Taste Before Getting Started | |
Before you delve into the code, we suggest exploring the interactive DEMO we've provided for a comprehensive overview. There are several ways you can engage with it: | |
1. **Online DEMO** | |
| HuggingFace | OpenXLab | | |
| :----------------------------------------------------------: | :----------------------------------------------------------: | | |
| [![hf](https://img.shields.io/badge/%F0%9F%A4%97%20HuggingFace-Spaces-yellow)](https://huggingface.co/spaces/amphion/singing_voice_conversion)<br />(Worldwide) | [![openxlab](https://cdn-static.openxlab.org.cn/app-center/openxlab_app.svg)](https://openxlab.org.cn/apps/detail/Amphion/singing_voice_conversion)<br />(Suitable for Mainland China Users) | | |
2. **Run Local Gradio DEMO** | |
| Run with Docker | Duplicate Space with Private GPU | | |
| :----------------------------------------------------------: | :----------------------------------------------------------: | | |
| [![hf](https://img.shields.io/badge/%F0%9F%A4%97%20HuggingFace-Spaces-yellow)](https://huggingface.co/spaces/amphion/singing_voice_conversion?docker=true) | [![hf](https://img.shields.io/badge/%F0%9F%A4%97%20HuggingFace-Spaces-yellow)](https://huggingface.co/spaces/amphion/singing_voice_conversion?duplicate=true) | | |
3. **Run with the Extended Colab** | |
You can check out [this repo](https://github.com/camenduru/singing-voice-conversion-colab) to run it with Colab. Thanks to [@camenduru](https://x.com/camenduru?s=20) and the community for their support! | |
## Usage Overview | |
To train a `DiffWaveNetSVC` model, there are four stages in total: | |
1. Data preparation | |
2. Features extraction | |
3. Training | |
4. Inference/conversion | |
> **NOTE:** You need to run every command of this recipe in the `Amphion` root path: | |
> ```bash | |
> cd Amphion | |
> ``` | |
## 1. Data Preparation | |
### Dataset Download | |
By default, we utilize the five datasets for training: M4Singer, Opencpop, OpenSinger, SVCC, and VCTK. How to download them is detailed [here](../../datasets/README.md). | |
### Configuration | |
Specify the dataset paths in `exp_config.json`. Note that you can change the `dataset` list to use your preferred datasets. | |
```json | |
"dataset": [ | |
"m4singer", | |
"opencpop", | |
"opensinger", | |
"svcc", | |
"vctk" | |
], | |
"dataset_path": { | |
// TODO: Fill in your dataset path | |
"m4singer": "[M4Singer dataset path]", | |
"opencpop": "[Opencpop dataset path]", | |
"opensinger": "[OpenSinger dataset path]", | |
"svcc": "[SVCC dataset path]", | |
"vctk": "[VCTK dataset path]" | |
}, | |
``` | |
### Custom Dataset | |
We support custom dataset, see [here](../../datasets/README.md#customsvcdataset) for the file structure to follow. | |
After constructing proper file structure, specify your dataset name in `dataset` and its path in `dataset_path`, also add its name in `use_custom_dataset`: | |
```json | |
"dataset": [ | |
"[Exisiting Dataset Name]", | |
//... | |
"[Your Custom Dataset Name]" | |
], | |
"dataset_path": { | |
"[Exisiting Dataset Name]": "[Exisiting Dataset Path]", | |
//... | |
"[Your Custom Dataset Name]": "[Your Custom Dataset Path]" | |
}, | |
"use_custom_dataset": [ | |
"[Your Custom Dataset Name]" | |
], | |
``` | |
> **NOTE:** Custom dataset name does not have to be the same as the folder name. But it needs to satisfy these rules: | |
> 1. It can not be the same as the exisiting dataset name. | |
> 2. It can not contain any space or underline(`_`). | |
> 3. It must be a valid folder name for operating system. | |
> | |
> Some examples of valid custom dataset names are `mydataset`, `myDataset`, `my-dataset`, `mydataset1`, `my-dataset-1`, etc. | |
## 2. Features Extraction | |
### Content-based Pretrained Models Download | |
By default, we utilize the Whisper and ContentVec to extract content features. How to download them is detailed [here](../../../pretrained/README.md). | |
### Configuration | |
Specify the dataset path and the output path for saving the processed data and the training model in `exp_config.json`: | |
```json | |
// TODO: Fill in the output log path. The default value is "Amphion/ckpts/svc" | |
"log_dir": "ckpts/svc", | |
"preprocess": { | |
// TODO: Fill in the output data path. The default value is "Amphion/data" | |
"processed_dir": "data", | |
... | |
}, | |
``` | |
### Run | |
Run the `run.sh` as the preproces stage (set `--stage 1`). | |
```bash | |
sh egs/svc/MultipleContentsSVC/run.sh --stage 1 | |
``` | |
> **NOTE:** The `CUDA_VISIBLE_DEVICES` is set as `"0"` in default. You can change it when running `run.sh` by specifying such as `--gpu "1"`. | |
## 3. Training | |
### Configuration | |
We provide the default hyparameters in the `exp_config.json`. They can work on single NVIDIA-24g GPU. You can adjust them based on you GPU machines. | |
```json | |
"train": { | |
"batch_size": 32, | |
... | |
"adamw": { | |
"lr": 2.0e-4 | |
}, | |
... | |
} | |
``` | |
### Train From Scratch | |
Run the `run.sh` as the training stage (set `--stage 2`). Specify a experimental name to run the following command. The tensorboard logs and checkpoints will be saved in `Amphion/ckpts/svc/[YourExptName]`. | |
```bash | |
sh egs/svc/MultipleContentsSVC/run.sh --stage 2 --name [YourExptName] | |
``` | |
### Train From Existing Source | |
We support training from existing source for various purposes. You can resume training the model from a checkpoint or fine-tune a model from another checkpoint. | |
Setting `--resume true`, the training will resume from the **latest checkpoint** by default. For example, if you want to resume training from the latest checkpoint in `Amphion/ckpts/svc/[YourExptName]/checkpoint`, run: | |
```bash | |
sh egs/svc/MultipleContentsSVC/run.sh --stage 2 --name [YourExptName] \ | |
--resume true | |
``` | |
You can choose a **specific checkpoint** for retraining by `--resume_from_ckpt_path` argument. For example, if you want to fine-tune from the checkpoint `Amphion/ckpts/svc/[YourExptName]/checkpoint/[SpecificCheckpoint]`, run: | |
```bash | |
sh egs/svc/MultipleContentsSVC/run.sh --stage 2 --name [YourExptName] \ | |
--resume true | |
--resume_from_ckpt_path "Amphion/ckpts/svc/[YourExptName]/checkpoint/[SpecificCheckpoint]" \ | |
``` | |
If you want to **fine-tune from another checkpoint**, just use `--resume_type` and set it to `"finetune"`. For example, If you want to fine-tune from the checkpoint `Amphion/ckpts/svc/[AnotherExperiment]/checkpoint/[SpecificCheckpoint]`, run: | |
```bash | |
sh egs/svc/MultipleContentsSVC/run.sh --stage 2 --name [YourExptName] \ | |
--resume true | |
--resume_from_ckpt_path "Amphion/ckpts/svc/[AnotherExperiment]/checkpoint/[SpecificCheckpoint]" \ | |
--resume_type "finetune" | |
``` | |
> **NOTE:** The `--resume_type` is set as `"resume"` in default. It's not necessary to specify it when resuming training. | |
> | |
> The difference between `"resume"` and `"finetune"` is that the `"finetune"` will **only** load the pretrained model weights from the checkpoint, while the `"resume"` will load all the training states (including optimizer, scheduler, etc.) from the checkpoint. | |
Here are some example scenarios to better understand how to use these arguments: | |
| Scenario | `--resume` | `--resume_from_ckpt_path` | `--resume_type` | | |
| ------ | -------- | ----------------------- | ------------- | | |
| You want to train from scratch | no | no | no | | |
| The machine breaks down during training and you want to resume training from the latest checkpoint | `true` | no | no | | |
| You find the latest model is overfitting and you want to re-train from the checkpoint before | `true` | `SpecificCheckpoint Path` | no | | |
| You want to fine-tune a model from another checkpoint | `true` | `SpecificCheckpoint Path` | `"finetune"` | | |
> **NOTE:** The `CUDA_VISIBLE_DEVICES` is set as `"0"` in default. You can change it when running `run.sh` by specifying such as `--gpu "0,1,2,3"`. | |
## 4. Inference/Conversion | |
### Pretrained Vocoder Download | |
We fine-tune the official BigVGAN pretrained model with over 120 hours singing voice data. The benifits of fine-tuning has been investigated in our paper (see this [demo page](https://www.zhangxueyao.com/data/MultipleContentsSVC/vocoder.html)). The final pretrained singing voice vocoder is released [here](../../../pretrained/README.md#amphion-singing-bigvgan) (called `Amphion Singing BigVGAN`). | |
### Run | |
For inference/conversion, you need to specify the following configurations when running `run.sh`: | |
| Parameters | Description | Example | | |
| --------------------------------------------------- | ------------------------------------------------------------------------------------------------------------------------------------------ | ---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | |
| `--infer_expt_dir` | The experimental directory which contains `checkpoint` | `Amphion/ckpts/svc/[YourExptName]` | | |
| `--infer_output_dir` | The output directory to save inferred audios. | `Amphion/ckpts/svc/[YourExptName]/result` | | |
| `--infer_source_file` or `--infer_source_audio_dir` | The inference source (can be a json file or a dir). | The `infer_source_file` could be `Amphion/data/[YourDataset]/test.json`, and the `infer_source_audio_dir` is a folder which includes several audio files (*.wav, *.mp3 or *.flac). | | |
| `--infer_target_speaker` | The target speaker you want to convert into. You can refer to `Amphion/ckpts/svc/[YourExptName]/singers.json` to choose a trained speaker. | For opencpop dataset, the speaker name would be `opencpop_female1`. | | |
| `--infer_key_shift` | How many semitones you want to transpose. | `"autoshfit"` (by default), `3`, `-3`, etc. | | |
For example, if you want to make `opencpop_female1` sing the songs in the `[Your Audios Folder]`, just run: | |
```bash | |
sh egs/svc/MultipleContentsSVC/run.sh --stage 3 --gpu "0" \ | |
--infer_expt_dir ckpts/svc/[YourExptName] \ | |
--infer_output_dir ckpts/svc/[YourExptName]/result \ | |
--infer_source_audio_dir [Your Audios Folder] \ | |
--infer_target_speaker "opencpop_female1" \ | |
--infer_key_shift "autoshift" | |
``` | |
## Citations | |
```bibtex | |
@inproceedings{zhang2024leveraging, | |
author={Zhang, Xueyao and Fang, Zihao and Gu, Yicheng and Chen, Haopeng and Zou, Lexiao and Zhang, Junan and Xue, Liumeng and Wu, Zhizheng}, | |
title={Leveraging Diverse Semantic-based Audio Pretrained Models for Singing Voice Conversion}, | |
booktitle={{IEEE} Spoken Language Technology Workshop, {SLT} 2024}, | |
year={2024} | |
} | |
``` | |