demonstration1 | demonstration2
It is an AI that composes music, with MIDI output.
It is based on GPT-2. You can generate music of arbitrary length, and you can also specify the chord progression to generate music.
Or they can compose a continuation of a music they've been working on.
The output music can be used as free content without any copyright or usage restrictions.
There are two models that have been trained: the "base_5tr" with 5 output tracks and the "base_17tr" with 17 tracks.
| Model Name | output tracks | total number of parameters |
|---|---|---|
| base_5tr (backup url) |
Drums, Piano, Guitar, Bass, Strings | 86167296 |
| base_17tr (backup url) |
Drums, Piano, Chromatic Percussion, Organ, Guitar, Bass, Strings, Ensemble, Brass, Reed, Pipe, Synth Lead, Synth Pad, Synth Effects, Ethnic, Percussive, Sound Effects |
86941440 |
First, clone chord2melody from GitHub.
$ git clone https://github.com/tanreinama/chord2melody
$ cd chord2melodyThen, download and extract the pretrained model from the link above.
$ wget https://www.nama.ne.jp/models/chord2melody-base_5tr.tar.bz2
$ tar xvfj chord2melody-base_5tr.tar.bz2Launch chord2melody.py with specifying the model , a MIDI file is created.
$ python3 chord2melody.py --model base_5trThere is no limit to the length of music that can be output. The total number of bars of music to be generated is specified with the "--num_bars" option.
$ python3 chord2melody.py --num_bars 48To specify the chord progression, use the "--chord" option, and use the "--chordbeat" option to specify how many chords to put in a measure.
$ python3 chord2melody.py --chord "C|C|C|C|Dm|Dm|Dm|Dm|G7|G7|G7|G7|Am|Am|Am|Am" --chordbeat 4Chord" option, you can specify from Available Chord or "auto" connected with "|".
###Compose a continuation of a music
The program "melody2melody.py" will automatically compose a continuation of a music you have been working on. Use the "--input" option in "melody2melody.py" to specify the MIDI file you want to create a continuation of.
$ python3 melody2melody.py --input halfway.midBy specifying "--top_p", you can specify the fluctuation of the song.
$ python3 chord2melody.py --top_k 25 --top_p 0Put one or two numbers in "--top_p". The first number is used when there's a chord progression and the second (if specified) when the chord progression is "auto".
The data for training is from Lakh Pianoroll Dataset. To train, download lpd_5_full.tar.gz or [lpd-17-full.tar.gz](https://drive. google.com/uc?export=download&id=1bJAC2SKhdKbKvpLL1V1l66cCgWX8eQEm) and extract it.
Next, go to the train directory and run "encode.py" to create a training data file.
The "--da" option allows you to specify data augmentation by modulation. The randomly modulated data is used to increase the training data.
$ cd train
$ python3 encode.py --dataset lpd_5 --output lpd_5_datasetRun "train.py" with specify the type of dataset (lpd_5/lpd_7) in "--dataset" option and the encoded training data file in "--input" option.
$ python3 train.py --dataset lpd_5 --input lpd_5_datasetTo fine-tune your own data, you must first edit the data to 5 or 17 tracks of MIDI data.
Then save the data in pypianoroll format, with the tracks in the same order as the original model.
Then you can create a training data file in encoder.py and fine tune it by specifying the original trained model in the "--restore_from" field.
$ python3 train.py --dataset lpd_5 --input lpd_5_dataset --restore_from ../base_5tr