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# Amphion Text-to-Speech (TTS) Recipe | |
## Quick Start | |
We provide a **[beginner recipe](VALLE_V2/)** to demonstrate how to train a cutting edge TTS model. Specifically, it is Amphion's re-implementation for [VALL-E](https://arxiv.org/abs/2301.02111), which is a zero-shot TTS architecture that uses a neural codec language model with discrete codes. | |
## Supported Model Architectures | |
Until now, Amphion TTS supports the following models or architectures, | |
- **[FastSpeech2](FastSpeech2)**: A non-autoregressive TTS architecture that utilizes feed-forward Transformer blocks. | |
- **[VITS](VITS)**: An end-to-end TTS architecture that utilizes conditional variational autoencoder with adversarial learning | |
- **[VALL-E](VALLE_V2)**: A zero-shot TTS architecture that uses a neural codec language model with discrete codes. This model is our updated VALL-E implementation as of June 2024 which uses Llama as its underlying architecture. The previous version of VALL-E release can be found [here](VALLE) | |
- **[NaturalSpeech2](NaturalSpeech2)** (👨💻 developing): An architecture for TTS that utilizes a latent diffusion model to generate natural-sounding voices. | |
- **[Jets](Jets)**: An end-to-end TTS model that jointly trains FastSpeech2 and HiFi-GAN with an alignment module. | |
## Amphion TTS Demo | |
Here are some [TTS samples](https://openhlt.github.io/Amphion_TTS_Demo/) from Amphion. | |