Skip to content
/ MelNet Public
forked from Deepest-Project/MelNet

Implementation of "MelNet: A Generative Model for Audio in the Frequency Domain"

License

MIT license
0 stars 38 forks Branches Tags Activity
Star
Notifications You must be signed in to change notification settings

wekaco/MelNet

BranchesTags
 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

165 Commits

assets

assets

 
 

config

config

 
 

datasets

datasets

 
 

docker

docker

 
 

model

model

 
 

text

text

 
 

utils

utils

 
 

.gitignore

.gitignore

 
 

LICENSE

LICENSE

 
 

Makefile

Makefile

 
 

README.md

README.md

 
 

inference.py

inference.py

 
 

requirements.txt

requirements.txt

 
 

trainer.py

trainer.py

 
 

Repository files navigation

MelNet

Implementation of MelNet: A Generative Model for Audio in the Frequency Domain

Prerequisites

  • Tested with Python 3.6.8 & 3.7.4, PyTorch 1.2.0 & 1.3.0.
  • pip install -r requirements.txt

How to train

Datasets

  • Blizzard, VoxCeleb2, and KSS have YAML files provided under config/. For other datasets, fill out your own YAML file according to the other provided ones.
  • Unconditional training is possible for all kinds of datasets, provided that they have a consistent file extension specified by data.extension within the YAML file.
  • Conditional training is currently only implemented for KSS and a subset of the Blizzard dataset.

Running the code

  • python trainer.py -c [config YAML file path] -n [name of run] -t [tier number] -b [batch size] -s [TTS]
    • Each tier can be trained separately. Since each tier is larger than the one before it (with the exception of tier 1), modify the batch size for each tier.
      • Tier 6 of the Blizzard dataset does not fit on a 16GB P100, even with a batch size of 1.
    • The -s flag is a boolean for determining whether to train a TTS tier. Since a TTS tier only differs at tier 1, this flag is ignored when [tier number] != 0 . Warning: this flag is toggled True no matter what follows the flag. Ignore it if you're not planning to use it.

How to sample

Preparing the checkpoints

  • The checkpoints must be stored under chkpt/.
  • A YAML file named inference.yaml must be provided under config/.
  • inference.yaml must specify the number of tiers, the names of the checkpoints, and whether or not it is a conditional generation.

Running the code

  • python inference.py -c [config YAML file path] -p [inference YAML file path] -t [timestep of generated mel spectrogram] -n [name of sample] -i [input sentence for conditional generation]
    • Timestep refers to the length of the mel spectrogram. The ratio of timestep to seconds is roughly [sample rate] : [hop length of FFT].
    • The -i flag is optional, only needed for conditional generation. Surround the sentence with "" and end with ..
    • Both unconditional generation and conditional generation currently does not support primed generation (extrapolating from provided data).

To-do

  • Implement upsampling procedure
  • GMM sampling + loss function
  • Unconditional audio generation
  • TTS synthesis
  • Tensorboard logging
  • Multi-GPU training
  • Primed generation

Implementation authors

License

MIT License

About

Implementation of "MelNet: A Generative Model for Audio in the Frequency Domain"

Resources

Readme

License

MIT license
Activity
Custom properties

Stars

0 stars

Watchers

1 watching

Forks

0 forks
Report repository

Releases

No releases published

Packages

No packages published

Languages

  • Python 96.9%
  • Dockerfile 2.6%
  • Makefile 0.5%