Skip to main content

StyleTTS 2 Setup Guide

StyleTTS 2: Towards Human-Level Text-to-Speech through Style Diffusion and Adversarial Training with Large Speech Language Models

StyleTTS 2 is very appealing since the quality is very high and it's also flexible, supporting multi-speaker, zero-shot speaker adaptation, speech expressiveness, and style transfer (speech and style vectors are separated).

It also turns out the inferencing code appears to be very fast, beating out TTS VITS by a big margin (and XTTS by an even bigger margin). Note, all of these generate faster than real-time on an RTX 4090, although for StyleTTS 2, I'm seeing up to 95X and XTTS is barely faster at about 1.4X.

This write-up is done on the first day after release, and only adapting the LJSpeech inferencing ipynb code to a Python script. The instructions weren't in too bad a state. You can see this post also for a quick comparison of StyleTTS 2 vs TTS VITS vs TTS XTTS output.

  • espeak-ng - you need this
  • CUDA - you could probably use CPU or ROCm but idk
  • Mamba - not required but will make your life a lot easier

Environment setup:

# you may need 3.10, depends on your pytorch version
mamba create -n styletts2 python=3.11
mamba activate styletts2

# pytorch - current nightly works w/ Python 3.11 but not 3.12
# pick your version here:
mamba install pytorch torchvision torchaudio pytorch-cuda=12.1 -c pytorch-nightly -c nvidia

# reqs - torch stuff already installed 
pip install SoundFile munch pydub pyyaml librosa nltk matplotlib accelerate transformers phonemizer einops einops-exts tqdm typing typing-extensions git+

# checkout codebase
git clone
cd StyleTTS2

Get models:

# way useful for servers
pip install gdown
gdown ''


My changes, mainly include doing file output:

## No
# import IPython.display as ipd
# display(ipd.Audio(wav, rate=24000))

## Yes
import soundfile as sf
sf.write('output.df5.wav', wav, 24000)

Oh, and I like to output some more timing stuff, eg:

end = time.time()
rtf = (end - start) / (len(wav) / 24000)
print(f"Clip duration: {len(wav)/24000:.2f}s")
print(f"Inference time: {end-start:.2f}s")
print(f"RTF = {rtf:5f}")
print(f"RTX = {1/rtf:.2f}")

Personally, I find RT X multiple more intuitive, especially once you get to higher multiples.

To be continued when I have a chance to get to training...