Skip to content

Latest commit

 

History

History
 
 

official

TensorFlow Official Models

The TensorFlow official models are a collection of example models that use TensorFlow's high-level APIs. They are intended to be well-maintained, tested, and kept up to date with the latest TensorFlow API. They should also be reasonably optimized for fast performance while still being easy to read.

These models are used as end-to-end tests, ensuring that the models run with the same speed and performance with each new TensorFlow build.

Tensorflow releases

The master branch of the models are in development, and they target the nightly binaries built from the master branch of TensorFlow. We aim to keep them backwards compatible with the latest release when possible (currently TensorFlow 1.5), but we cannot always guarantee compatibility.

Stable versions of the official models targeting releases of TensorFlow are available as tagged branches or downloadable releases. Model repository version numbers match the target TensorFlow release, such that branch r1.4.0 and release v1.4.0 are compatible with TensorFlow v1.4.0.

If you are on a version of TensorFlow earlier than 1.4, please update your installation.

Requirements

Please follow the below steps before running models in this repo:

  1. TensorFlow nightly binaries

  2. Add the top-level /models folder to the Python path with the command:

    export PYTHONPATH="$PYTHONPATH:/path/to/models"
    

    Using Colab:

    import os
    os.environ['PYTHONPATH'] += ":/path/to/models"
    
  3. Install dependencies:

    pip3 install --user -r official/requirements.txt
    

    or

    pip install --user -r official/requirements.txt
    

To make Official Models easier to use, we are planning to create a pip installable Official Models package. This is being tracked in #917.

Available models

NOTE: Please make sure to follow the steps in the Requirements section.

  • bert: A powerful pre-trained language representation model: BERT, which stands for Bidirectional Encoder Representations from Transformers.
  • boosted_trees: A Gradient Boosted Trees model to classify higgs boson process from HIGGS Data Set.
  • mnist: A basic model to classify digits from the MNIST dataset.
  • resnet: A deep residual network that can be used to classify both CIFAR-10 and ImageNet's dataset of 1000 classes.
  • transformer: A transformer model to translate the WMT English to German dataset.
  • wide_deep: A model that combines a wide model and deep network to classify census income data.
  • More models to come!

If you would like to make any fixes or improvements to the models, please submit a pull request.

New Models

The team is actively working to add new models to the repository. Every model should follow the following guidelines, to uphold the our objectives of readable, usable, and maintainable code.

General guidelines

  • Code should be well documented and tested.
  • Runnable from a blank environment with relative ease.
  • Trainable on: single GPU/CPU (baseline), multiple GPUs, TPU
  • Compatible with Python 2 and 3 (using six when necessary)
  • Conform to Google Python Style Guide

Implementation guidelines

These guidelines exist so the model implementations are consistent for better readability and maintainability.