Android quickstart

To get started with TensorFlow Lite on Android, we recommend exploring the following example.

Android image classification example

Read TensorFlow Lite Android image classification for an explanation of the source code.

This example app uses image classification to continuously classify whatever it sees from the device's rear-facing camera. The application can run either on device or emulator.

Inference is performed using the TensorFlow Lite Java API and the TensorFlow Lite Android Support Library. The demo app classifies frames in real-time, displaying the top most probable classifications. It allows the user to choose between a floating point or quantized model, select the thread count, and decide whether to run on CPU, GPU, or via NNAPI.

Build in Android Studio

To build the example in Android Studio, follow the instructions in README.md.

Create your own Android app

To get started quickly writing your own Android code, we recommend using our Android image classification example as a starting point.

The following sections contain some useful information for working with TensorFlow Lite on Android.

Use the TensorFlow Lite Task Library

TensorFlow Lite Task Library contains a set of powerful and easy-to-use task-specific libraries for app developers to create ML experiences with TFLite. It provides optimized out-of-box model interfaces for popular machine learning tasks, such as image classification, question and answer, etc. The model interfaces are specifically designed for each task to achieve the best performance and usability. Task Library works cross-platform and is supported on Java, C++, and Swift (coming soon).

To use the Support Library in your Android app, we recommend using the AAR hosted at JCenter for Task Vision library and Task Text library , respectively.

You can specify this in your build.gradle dependencies as follows:

dependencies {
    implementation 'org.tensorflow:tensorflow-lite-task-vision:0.0.0-nightly'
    implementation 'org.tensorflow:tensorflow-lite-task-text:0.0.0-nightly'
}

See the introduction in the TensorFlow Lite Task Library overview for more details.

Use the TensorFlow Lite Android Support Library

The TensorFlow Lite Android Support Library makes it easier to integrate models into your application. It provides high-level APIs that help transform raw input data into the form required by the model, and interpret the model's output, reducing the amount of boilerplate code required.

It supports common data formats for inputs and outputs, including images and arrays. It also provides pre- and post-processing units that perform tasks such as image resizing and cropping.

To use the Support Library in your Android app, we recommend using the TensorFlow Lite Support Library AAR hosted at JCenter.

You can specify this in your build.gradle dependencies as follows:

dependencies {
    implementation 'org.tensorflow:tensorflow-lite-support:0.0.0-nightly'
}

To get started, follow the instructions in the TensorFlow Lite Android Support Library.

Use the TensorFlow Lite AAR from JCenter

To use TensorFlow Lite in your Android app, we recommend using the TensorFlow Lite AAR hosted at JCenter.

You can specify this in your build.gradle dependencies as follows:

dependencies {
    implementation 'org.tensorflow:tensorflow-lite:0.0.0-nightly'
}

This AAR includes binaries for all of the Android ABIs. You can reduce the size of your application's binary by only including the ABIs you need to support.

We recommend most developers omit the x86, x86_64, and arm32 ABIs. This can be achieved with the following Gradle configuration, which specifically includes only armeabi-v7a and arm64-v8a, which should cover most modern Android devices.

android {
    defaultConfig {
        ndk {
            abiFilters 'armeabi-v7a', 'arm64-v8a'
        }
    }
}

To learn more about abiFilters, see NdkOptions in the Android Gradle documentation.

Build Android app using C++

There are two ways to use TFLite through C++ if you build your app with the NDK:

Use TFLite C API

This is the recommended approach. Download the TensorFlow Lite AAR hosted at JCenter, rename it to tensorflow-lite-*.zip, and unzip it. You must include the four header files in headers/tensorflow/lite/ and headers/tensorflow/lite/c/ folder and the relevant libtensorflowlite_jni.so dynamic library in jni/ folder in your NDK project.

The c_api.h header file contains basic documentation about using the TFLite C API.

Use TFLite C++ API

If you want to use TFLite through C++ API, you can build the C++ shared libraries:

32bit armeabi-v7a:

bazel build -c opt --config=android_arm //tensorflow/lite:libtensorflowlite.so

64bit arm64-v8a:

bazel build -c opt --config=android_arm64 //tensorflow/lite:libtensorflowlite.so

Currently, there is no straightforward way to extract all header files needed, so you must include all header files in tensorflow/lite/ from the TensorFlow repository. Additionally, you will need header files from FlatBuffers and Abseil.