In this post, we’ll give you a quick overview of TensorFlow.js, and getting started resources you can use to try it out.
Running machine learning programs entirely client-side in the browser unlocks new opportunities, like interactive ML! If you’re watching the livestream for the TensorFlow Developer Summit, during the TensorFlow.js talk you’ll find a demo where @dsmilkov and @nsthorat train a model to control a PAC-MAN game using computer vision and a webcam, entirely in the browser. You can try it out yourself, too, with the link below — and find the source in the examples folder.
If you’d like to try another game, give the Emoji Scavenger Hunt a whirl — this time, from a browser on your mobile phone.
ML running in the browser means that from a user’s perspective, there’s no need to install any libraries or drivers. Just open a webpage, and your program is ready to run. In addition, it’s ready to run with GPU acceleration. TensorFlow.js automatically supports WebGL, and will accelerate your code behind the scenes when a GPU is available. Users may also open your webpage from a mobile device, in which case your model can take advantage of sensor data, say from a gyroscope or accelerometer. Finally, all data stays on the client, making TensorFlow.js useful for low-latency inference, as well as for privacy preserving applications.
What can you do with TensorFlow.js?
If you’re developing with TensorFlow.js, here are three workflows you can consider.
- You can import an existing, pre-trained model for inference. If you have an existing TensorFlow or Keras model you’ve previously trained offline, you can convert into TensorFlow.js format, and load it into the browser for inference.
- You can re-train an imported model. As in the Pac-Man demo above, you can use transfer learning to augment an existing model trained offline using a small amount of data collected in the browser using a technique called Image Retraining. This is one way to train an accurate model quickly, using only a small amount of data.
Let’s see some code
The layers API we’re using here supports all of the Keras layers found in the examples directory (including Dense, CNN, LSTM, and so on). We can then train our model using the same Keras-compatible API with a method call:https://medium.com/media/6a80b36fa1457ad8f7776422e2bafa7a
The model is now ready to use to make predictions:https://medium.com/media/8f5bfa52ce9668dcff85a4b8eb946b0c
An overview of TensorFlow.js APIs. TensorFlow.js is powered by WebGL and provides a high-level layers API for defining models, and a low-level API for linear algebra and automatic differentiation. TensorFlow.js supports importing TensorFlow SavedModels and Keras models.
How does TensorFlow.js relate to deeplearn.js?
Where’s the best place to learn more?
To learn more about TensorFlow.js, visit the project homepage, check out the tutorials, and try the examples. You can also watch the talk from the 2018 TensorFlow Developer Summit, and follow TensorFlow