(QoL improvements for) a multi-voice TTS system trained with an emphasis on quality
Go to file
James Betker e2ee843098 Updates
2022-04-12 16:40:42 -06:00
data Add read script 2022-04-10 19:29:42 -06:00
models Updates 2022-04-10 14:41:13 -06:00
results Upload sample results and voices 2022-03-10 22:46:15 -07:00
utils Update API to have more expressive interface for controlling various generation knobs 2022-03-29 13:59:39 -06:00
.gitignore Initial commit 2022-01-27 23:19:29 -07:00
api_new_autoregressive.py Updates 2022-04-10 14:41:13 -06:00
api.py Updates 2022-04-12 16:40:42 -06:00
do_tts.py Add read script 2022-04-10 19:29:42 -06:00
eval_multiple.py Updates 2022-04-12 16:40:42 -06:00
LICENSE Initial commit 2022-01-27 21:33:15 -07:00
read.py support presets for generation 2022-04-10 23:19:15 -06:00
README.md Another update 2022-03-10 23:33:48 -07:00
requirements.txt Add in ASR filtration 2022-03-26 21:32:12 -06:00
sweep.py param improvements from investigation 2022-04-01 11:34:40 -06:00
tortoise_tts.ipynb Add colab notebook 2022-03-10 23:21:01 -07:00

Tortoise-TTS

Tortoise TTS is an experimental text-to-speech program that uses recent machine learning techniques to generate high-quality speech samples.

This repo contains all the code needed to run Tortoise TTS in inference mode.

What's in a name?

I'm naming my speech-related repos after Mojave desert flora and fauna. Tortoise is a bit tongue in cheek: this model is insanely slow. It leverages both an autoregressive speech alignment model and a diffusion model, both of which are known for their slow inference. It also performs CLIP sampling, which slows things down even further. You can expect ~5 seconds of speech to take ~30 seconds to produce on the latest hardware. Still, the results are pretty cool.

What the heck is this?

Tortoise TTS is inspired by OpenAI's DALLE, applied to speech data. It is made up of 4 separate models that work together. These models are all derived from different repositories which are all linked. All the models have been modified for this use case (some substantially so).

First, an autoregressive transformer stack predicts discrete speech "tokens" given a text prompt. This model is very similar to the GPT model used by DALLE, except it operates on speech data. Based on: GPT2 from Transformers

Next, a CLIP model judges a batch of outputs from the autoregressive transformer against the provided text and stack ranks the outputs according to most probable. You could use greedy or beam-search decoding but in my experience CLIP decoding creates considerably better results. Based on CLIP from lucidrains

Next, the speech "tokens" are decoded into a low-quality MEL spectrogram using a VQVAE. Based on VQVAE2 by rosinality

Finally, the output of the VQVAE is further decoded by a UNet diffusion model into raw audio, which can be placed in a wav file. Based on ImprovedDiffusion by openai

How do I use this?

Check out the colab: https://colab.research.google.com/drive/1wVVqUPqwiDBUVeWWOUNglpGhU3hg_cbR?usp=sharing

Or on a computer with a GPU (with >=16GB of VRAM):

git clone https://github.com/neonbjb/tortoise-tts.git
cd tortoise-tts
pip install -r requirements.txt
python do_tts.py

Hand-picked TTS samples

I generated ~250 samples from 23 text prompts and 8 voices. The text prompts have never been seen by the model. The voices were pulled from the training set.

All of the samples can be found in the results/ folder of this repo. I handpicked a few to show what the model is capable of:

Prosody is remarkably good for poetry, despite the fact that it was never trained on poetry.

How do I train this?

Frankly - you don't. Building this model has been a labor of love for me, consuming most of my 6 RTX3090s worth of resources for the better part of 6 months. It uses a dataset I've gathered, refined and transcribed that consists of a lot of audio data which I cannot distribute because of copywrite or no open licenses.

With that said, I'm willing to help you out if you really want to give it a shot. DM me.

Looking forward

I'm not satisfied with this yet. Treat this as a "sneak peek" and check back in a couple of months. I think the concept is sound, but there are a few hurdles to overcome to get sample quality up. I have been doing major tweaks to the diffusion model and should have something new and much better soon.