--- title: MusiConGen emoji: 🪩 colorFrom: green colorTo: blue sdk: gradio sdk_version: 4.39.0 app_file: app.py pinned: false --- # MusiConGen This is the official implementation of paper: "MusiConGen: Rhythm and chord control for Transformer-based text-to-music generation" in Proc. Int. Society for Music Information Retrieval Conf. (ISMIR), 2024. MusiConGen is based on pretrained [Musicgen](https://github.com/facebookresearch/audiocraft) with additional controls: Rhythm and Chords. The project contains inference, training code and training data (youtube list).
[Arxiv Paper]() | [Demo](https://musicongen.github.io/musicongen_demo/)
## Installation MusiConGen requires Python 3.9 and PyTorch 2.0.0. You can run: ```bash pip install -r requirements.txt ``` We also recommend having `ffmpeg` installed, either through your system or Anaconda: ```bash sudo apt-get install ffmpeg # Or if you are using Anaconda or Miniconda conda install 'ffmpeg<5' -c conda-forge ```
## Model The model is based on the pretrained MusicGen-melody(1.5B). For infernece, GPU with VRAM greater than 12GB is recommended. For training, GPU with VRAM greater than 24GB is recommended. ## Inference First, the model weight is at [link](https://huggingface.co/Cyan0731/MusiConGen/tree/main). Move the model weight `compression_state_dict.bin` and `state_dict.bin` to directory `audiocraft/ckpt/musicongen`. One can simply run inference script with the command to generate music with chord and rhythm condition: ```shell cd audiocraft python generate_chord_beat.py ```
## Training ### Training Data The training data is provided as json format in 5_genre_songs_list.json. The listed suffixes are for youtube links. ### Data Preprocessing Before training, one should put audio data in `audiocraft/dataset/$DIR_OF_YOUR_DATA$/full`. And then run the preprocessing step by step: ```shell cd preproc ``` ### 1. demixing tracks To remove the vocal stem from the track, we use [Demucs](https://github.com/facebookresearch/demucs). In `main.py`, change `path_rootdir` to your directory and `ext_src` to the audio extention of your dataset (`'mp3'` or `'wav'`). ```shell cd 0_demix python main.py ```
### 2. beat/downbeat detection and cropping To extract beat and down beat of songs, you can use [BeatNet](https://github.com/mjhydri/BeatNet) or [Madmom](https://github.com/CPJKU/madmom) as the beat extrctor. For Beatnet user, change `path_rootdir` to your directory in `main_beat_nn.py`. For Madmom user, change `path_rootdir` to your directory in `main_beat.py`. Then accroding to the extracted beat and downbeat, each song is cropped into clips in `main_crop.py`. `path_rootdir` should also be changed to your dataset directory. The last stage is to filter out the clips with low volumn. `path_rootdir` should be changed to `clip` directory. ```shell cd 1_beats-crop python main_beat.py python main_crop.py python main_filter.py ```
### 3. chord extraction To extract chord progression, we use [BTC-ISMIR2019](https://github.com/jayg996/BTC-ISMIR19). The `root_dir` in `main.py` should be changed to your clips data directory. ```shell cd 2_chord/BTC-ISMIR19 python main.py ```
### 4. tags/description labeling (optional) For dataset crawled from website(e.g. youtube), the description of each song can be obtrained from crawled informaiton `crawl_info.json`(you can change the file name in `3_1_ytjsons2tags/main.py`). We use the title of youtube song as description. The `root_dir` in `main.py` should be changed to your clips data directory. ```shell cd 3_1_ytjsons2tags python main.py ``` For dataset without information to describe, you can use [Essentia](https://github.com/MTG/essentia) to extract instrument and genre. ```shell cd 3_tags/essentia python main.py ``` After json files are created, run `dump_jsonl.py` to generate jsonl file in training directory.
### Training stage The training weight of MusiConGen is at [link](https://huggingface.co/Cyan0731/MusiConGen_training/tree/main). Please place it into the directory `MusiConGen/audiocraft/training_weights/xps/musicongen`. Before training, you should set your username in environment variable ```shell export env USER=$YOUR_USER_NAME ``` If using single gpu to finetune, you can use the following command: ```shell dora run solver=musicgen/single_finetune \ conditioner=chord2music_inattn.yaml \ continue_from=//sig/musicongen \ compression_model_checkpoint=//pretrained/facebook/encodec_32khz \ model/lm/model_scale=medium dset=audio/example \ transformer_lm.n_q=4 transformer_lm.card=2048 ``` the `continue_from` argument can be also provided with your absolute path of your checkpoint. If you are using multiple(4) gpus to finetune, you can use the following command: ```shell dora run -d solver=musicgen/multigpu_finetune \ conditioner=chord2music_inattn.yaml \ continue_from=//sig/musicongen \ compression_model_checkpoint=//pretrained/facebook/encodec_32khz \ model/lm/model_scale=medium dset=audio/example \ transformer_lm.n_q=4 transformer_lm.card=2048 ```
### export weight use `export_weight.py` with your training signature `sig` to export your weight to `output_dir`.
## License The license of code and model weights follows the [LICENSE file](https://github.com/Cyan0731/MusiConGen/blob/main/LICENSE), LICENSE of MusicGen in [LICENSE file](https://github.com/facebookresearch/audiocraft/blob/main/LICENSE) and [LICENSE_weights file](https://github.com/facebookresearch/audiocraft/blob/main/LICENSE_weights).