Mms Tts Tel

🚀 Massively Multilingual Speech (MMS): Telugu Text-to-Speech

This repository provides a Telugu (tel) text-to-speech (TTS) model checkpoint, which is part of Facebook's Massively Multilingual Speech project aiming to offer speech technology across diverse languages.

🚀 Quick Start

MMS-TTS is available in the 🤗 Transformers library from version 4.33 onwards. To use this checkpoint, first install the latest version of the library:

pip install --upgrade transformers accelerate

✨ Features

• Multilingual Support: Part of the Massively Multilingual Speech project, supporting a wide range of languages.
• End - to - End Synthesis: Based on the VITS model, capable of directly generating speech waveforms from text.
• Stochastic Duration Prediction: Allows for synthesizing speech with different rhythms from the same input text.

📦 Installation

To install the necessary libraries for using the MMS - TTS Telugu model, run the following command:

pip install --upgrade transformers accelerate

💻 Usage Examples

Basic Usage

from transformers import VitsModel, AutoTokenizer
import torch

model = VitsModel.from_pretrained("facebook/mms-tts-tel")
tokenizer = AutoTokenizer.from_pretrained("facebook/mms-tts-tel")

text = "some example text in the Telugu language"
inputs = tokenizer(text, return_tensors="pt")

with torch.no_grad():
    output = model(**inputs).waveform

Advanced Usage

Save the resulting waveform as a .wav file:

import scipy

scipy.io.wavfile.write("techno.wav", rate=model.config.sampling_rate, data=output)

Display the audio in a Jupyter Notebook / Google Colab:

from IPython.display import Audio

Audio(output, rate=model.config.sampling_rate)

📚 Documentation

Model Details

VITS (Variational Inference with adversarial learning for end - to - end Text - to - Speech) is an end - to - end speech synthesis model that predicts a speech waveform conditional on an input text sequence. It is a conditional variational autoencoder (VAE) comprised of a posterior encoder, decoder, and conditional prior.

A set of spectrogram - based acoustic features are predicted by the flow - based module, which is formed of a Transformer - based text encoder and multiple coupling layers. The spectrogram is decoded using a stack of transposed convolutional layers, much in the same style as the HiFi - GAN vocoder. Motivated by the one - to - many nature of the TTS problem, where the same text input can be spoken in multiple ways, the model also includes a stochastic duration predictor, which allows the model to synthesise speech with different rhythms from the same input text.

The model is trained end - to - end with a combination of losses derived from variational lower bound and adversarial training. To improve the expressiveness of the model, normalizing flows are applied to the conditional prior distribution. During inference, the text encodings are up - sampled based on the duration prediction module, and then mapped into the waveform using a cascade of the flow module and HiFi - GAN decoder. Due to the stochastic nature of the duration predictor, the model is non - deterministic, and thus requires a fixed seed to generate the same speech waveform.

For the MMS project, a separate VITS checkpoint is trained on each langauge.

📄 License

The model is licensed as CC - BY - NC 4.0.

🔧 Technical Details

The MMS - TTS Telugu model is based on the VITS architecture. It uses a combination of variational inference and adversarial learning for end - to - end text - to - speech synthesis. The model consists of a posterior encoder, decoder, and conditional prior. The flow - based module predicts spectrogram - based acoustic features, and a stack of transposed convolutional layers decodes the spectrogram. A stochastic duration predictor is included to handle the one - to - many nature of the TTS problem. The model is trained end - to - end with a combination of variational lower bound and adversarial losses, and normalizing flows are applied to the conditional prior distribution to improve expressiveness.

📚 BibTex citation

This model was developed by Vineel Pratap et al. from Meta AI. If you use the model, consider citing the MMS paper:

@article{pratap2023mms,
    title={Scaling Speech Technology to 1,000+ Languages},
    author={Vineel Pratap and Andros Tjandra and Bowen Shi and Paden Tomasello and Arun Babu and Sayani Kundu and Ali Elkahky and Zhaoheng Ni and Apoorv Vyas and Maryam Fazel - Zarandi and Alexei Baevski and Yossi Adi and Xiaohui Zhang and Wei - Ning Hsu and Alexis Conneau and Michael Auli},
    journal={arXiv},
    year={2023}
}