Added keyword argument

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Harry Coultas Blum 2022-07-08 14:28:24 +01:00
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@ -50,7 +50,7 @@ https://colab.research.google.com/drive/1wVVqUPqwiDBUVeWWOUNglpGhU3hg_cbR?usp=sh
### Local Installation ### Local Installation
If you want to use this on your own computer, you must have an NVIDIA GPU. If you want to use this on your own computer, you must have an NVIDIA GPU.
First, install pytorch using these instructions: [https://pytorch.org/get-started/locally/](https://pytorch.org/get-started/locally/). First, install pytorch using these instructions: [https://pytorch.org/get-started/locally/](https://pytorch.org/get-started/locally/).
On Windows, I **highly** recommend using the Conda installation path. I have been told that if you do not do this, you On Windows, I **highly** recommend using the Conda installation path. I have been told that if you do not do this, you
@ -81,7 +81,7 @@ This script provides tools for reading large amounts of text.
python tortoise/read.py --textfile <your text to be read> --voice random python tortoise/read.py --textfile <your text to be read> --voice random
``` ```
This will break up the textfile into sentences, and then convert them to speech one at a time. It will output a series This will break up the textfile into sentences, and then convert them to speech one at a time. It will output a series
of spoken clips as they are generated. Once all the clips are generated, it will combine them into a single file and of spoken clips as they are generated. Once all the clips are generated, it will combine them into a single file and
output that as well. output that as well.
@ -95,7 +95,7 @@ Tortoise can be used programmatically, like so:
```python ```python
reference_clips = [utils.audio.load_audio(p, 22050) for p in clips_paths] reference_clips = [utils.audio.load_audio(p, 22050) for p in clips_paths]
tts = api.TextToSpeech() tts = api.TextToSpeech()
pcm_audio = tts.tts_with_preset("your text here", reference_clips, preset='fast') pcm_audio = tts.tts_with_preset("your text here", voice_samples=reference_clips, preset='fast')
``` ```
## Voice customization guide ## Voice customization guide
@ -106,7 +106,7 @@ These reference clips are recordings of a speaker that you provide to guide spee
### Random voice ### Random voice
I've included a feature which randomly generates a voice. These voices don't actually exist and will be random every time you run I've included a feature which randomly generates a voice. These voices don't actually exist and will be random every time you run
it. The results are quite fascinating and I recommend you play around with it! it. The results are quite fascinating and I recommend you play around with it!
You can use the random voice by passing in 'random' as the voice name. Tortoise will take care of the rest. You can use the random voice by passing in 'random' as the voice name. Tortoise will take care of the rest.
@ -164,11 +164,11 @@ prompt "\[I am really sad,\] Please feed me." will only speak the words "Please
### Playing with the voice latent ### Playing with the voice latent
Tortoise ingests reference clips by feeding them through individually through a small submodel that produces a point latent, Tortoise ingests reference clips by feeding them through individually through a small submodel that produces a point latent,
then taking the mean of all of the produced latents. The experimentation I have done has indicated that these point latents then taking the mean of all of the produced latents. The experimentation I have done has indicated that these point latents
are quite expressive, affecting everything from tone to speaking rate to speech abnormalities. are quite expressive, affecting everything from tone to speaking rate to speech abnormalities.
This lends itself to some neat tricks. For example, you can combine feed two different voices to tortoise and it will output This lends itself to some neat tricks. For example, you can combine feed two different voices to tortoise and it will output
what it thinks the "average" of those two voices sounds like. what it thinks the "average" of those two voices sounds like.
#### Generating conditioning latents from voices #### Generating conditioning latents from voices
@ -207,13 +207,13 @@ positives.
## Model architecture ## Model architecture
Tortoise TTS is inspired by OpenAI's DALLE, applied to speech data and using a better decoder. It is made up of 5 separate Tortoise TTS is inspired by OpenAI's DALLE, applied to speech data and using a better decoder. It is made up of 5 separate
models that work together. I've assembled a write-up of the system architecture here: models that work together. I've assembled a write-up of the system architecture here:
[https://nonint.com/2022/04/25/tortoise-architectural-design-doc/](https://nonint.com/2022/04/25/tortoise-architectural-design-doc/) [https://nonint.com/2022/04/25/tortoise-architectural-design-doc/](https://nonint.com/2022/04/25/tortoise-architectural-design-doc/)
## Training ## Training
These models were trained on my "homelab" server with 8 RTX 3090s over the course of several months. They were trained on a dataset consisting of These models were trained on my "homelab" server with 8 RTX 3090s over the course of several months. They were trained on a dataset consisting of
~50k hours of speech data, most of which was transcribed by [ocotillo](http://www.github.com/neonbjb/ocotillo). Training was done on my own ~50k hours of speech data, most of which was transcribed by [ocotillo](http://www.github.com/neonbjb/ocotillo). Training was done on my own
[DLAS](https://github.com/neonbjb/DL-Art-School) trainer. [DLAS](https://github.com/neonbjb/DL-Art-School) trainer.
@ -256,7 +256,7 @@ to believe that the same is not true of TTS.
The largest model in Tortoise v2 is considerably smaller than GPT-2 large. It is 20x smaller that the original DALLE transformer. The largest model in Tortoise v2 is considerably smaller than GPT-2 large. It is 20x smaller that the original DALLE transformer.
Imagine what a TTS model trained at or near GPT-3 or DALLE scale could achieve. Imagine what a TTS model trained at or near GPT-3 or DALLE scale could achieve.
If you are an ethical organization with computational resources to spare interested in seeing what this model could do If you are an ethical organization with computational resources to spare interested in seeing what this model could do
if properly scaled out, please reach out to me! I would love to collaborate on this. if properly scaled out, please reach out to me! I would love to collaborate on this.
## Acknowledgements ## Acknowledgements