TensorFlow.js is an open-source hardware-accelerated JavaScript library for training and deploying machine learning models.
Develop ML in the Browser
Use flexible and intuitive APIs to build models from scratch using the low-level
JavaScript linear algebra library or the high-level layers API.
Develop ML in Node.js
Execute native TensorFlow with the same TensorFlow.js API under the Node.js
runtime.
Run Existing models
Use TensorFlow.js model converters to run pre-existing TensorFlow models right
in the browser.
Retrain Existing models
Retrain pre-existing ML models using sensor data connected to the browser or
other client-side data.
This repository contains the logic and scripts that combine several packages.
APIs:
- TensorFlow.js Core, a flexible low-level API for neural networks and numerical computation.
- TensorFlow.js Layers, a high-level API which implements functionality similar to Keras.
- TensorFlow.js Data, a simple API to load and prepare data analogous to tf.data.
- TensorFlow.js Converter, tools to import a TensorFlow SavedModel to TensorFlow.js
- TensorFlow.js Vis, in-browser visualization for TensorFlow.js models
- TensorFlow.js AutoML, Set of APIs to load and run models produced by AutoML Edge.
Backends/Platforms:
- TensorFlow.js CPU Backend, pure-JS backend for Node.js and the browser.
- TensorFlow.js WebGL Backend, WebGL backend for the browser.
- TensorFlow.js WASM Backend, WebAssembly backend for the browser.
- TensorFlow.js WebGPU, WebGPU backend for the browser.
- TensorFlow.js Node, Node.js platform via TensorFlow C++ adapter.
- TensorFlow.js React Native, React Native platform via expo-gl adapter.
If you care about bundle size, you can import those packages individually.
If you are looking for Node.js support, check out the TensorFlow.js Node directory.
Check out our examples repository and our tutorials.
Be sure to check out the gallery of all projects related to TensorFlow.js.
Be sure to also check out our models repository where we host pre-trained models on NPM.
- Local benchmark tool. Use this webpage tool to collect the performance related metrics (speed, memory, etc) of TensorFlow.js models and kernels on your local device with CPU, WebGL or WASM backends. You can benchmark custom models by following this guide.
- Multi-device benchmark tool. Use this tool to collect the same performance related metrics on a collection of remote devices.
There are two main ways to get TensorFlow.js in your JavaScript project: via script tags or by installing it from NPM and using a build tool like Parcel, WebPack, or Rollup.
Add the following code to an HTML file:
<html>
<head>
<!-- Load TensorFlow.js -->
<script src="https://cdn.jsdelivr.net/npm/@tensorflow/tfjs/dist/tf.min.js"> </script>
<!-- Place your code in the script tag below. You can also use an external .js file -->
<script>
// Notice there is no 'import' statement. 'tf' is available on the index-page
// because of the script tag above.
// Define a model for linear regression.
const model = tf.sequential();
model.add(tf.layers.dense({units: 1, inputShape: [1]}));
// Prepare the model for training: Specify the loss and the optimizer.
model.compile({loss: 'meanSquaredError', optimizer: 'sgd'});
// Generate some synthetic data for training.
const xs = tf.tensor2d([1, 2, 3, 4], [4, 1]);
const ys = tf.tensor2d([1, 3, 5, 7], [4, 1]);
// Train the model using the data.
model.fit(xs, ys).then(() => {
// Use the model to do inference on a data point the model hasn't seen before:
// Open the browser devtools to see the output
model.predict(tf.tensor2d([5], [1, 1])).print();
});
</script>
</head>
<body>
</body>
</html>
Open up that HTML file in your browser, and the code should run!
Add TensorFlow.js to your project using yarn or npm. Note: Because
we use ES2017 syntax (such as import
), this workflow assumes you are using a modern browser or a bundler/transpiler
to convert your code to something older browsers understand. See our
examples
to see how we use Parcel to build
our code. However, you are free to use any build tool that you prefer.
import * as tf from '@tensorflow/tfjs';
// Define a model for linear regression.
const model = tf.sequential();
model.add(tf.layers.dense({units: 1, inputShape: [1]}));
// Prepare the model for training: Specify the loss and the optimizer.
model.compile({loss: 'meanSquaredError', optimizer: 'sgd'});
// Generate some synthetic data for training.
const xs = tf.tensor2d([1, 2, 3, 4], [4, 1]);
const ys = tf.tensor2d([1, 3, 5, 7], [4, 1]);
// Train the model using the data.
model.fit(xs, ys).then(() => {
// Use the model to do inference on a data point the model hasn't seen before:
model.predict(tf.tensor2d([5], [1, 1])).print();
});
See our tutorials, examples and documentation for more details.
We support porting pre-trained models from:
TensorFlow.js is a part of the TensorFlow ecosystem. For more info:
- For help from the community, use
tensorflow.js
tag on Stack Overflow. - js.tensorflow.org
- Tutorials
- API reference
- Discussion mailing list
- TensorFlow.js Blog
Thanks, BrowserStack, for providing testing support.