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An open source AutoML toolkit for neural architecture search and hyper-parameter tuning.

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MIT licensed Build Status Issues Bugs Pull Requests Version Join the chat at https://gitter.im/Microsoft/nni Documentation Status

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NNI (Neural Network Intelligence) is a toolkit to help users run automated machine learning (AutoML) experiments. The tool dispatches and runs trial jobs generated by tuning algorithms to search the best neural architecture and/or hyper-parameters in different environments like local machine, remote servers and cloud.

NNI v1.0 has been released!  

Frameworks & Libraries Tuning Algorithms Training Services
Built-in
  • Supported Frameworks
    • PyTorch
    • Keras
    • TensorFlow
    • MXNet
    • Caffe2
    • More...
  • Supported Libraries
    • Scikit-learn
    • XGBoost
    • LightGBM
    • More...
Tuner Assessor
References

Who should consider using NNI

  • Those who want to try different AutoML algorithms in their training code (model) at their local machine.
  • Those who want to run AutoML trial jobs in different environments to speed up search (e.g. remote servers and cloud).
  • Researchers and data scientists who want to implement their own AutoML algorithms and compare it with other algorithms.
  • ML Platform owners who want to support AutoML in their platform.

Related Projects

Targeting at openness and advancing state-of-art technology, Microsoft Research (MSR) had also released few other open source projects.

  • OpenPAI : an open source platform that provides complete AI model training and resource management capabilities, it is easy to extend and supports on-premise, cloud and hybrid environments in various scale.
  • FrameworkController : an open source general-purpose Kubernetes Pod Controller that orchestrate all kinds of applications on Kubernetes by a single controller.
  • MMdnn : A comprehensive, cross-framework solution to convert, visualize and diagnose deep neural network models. The "MM" in MMdnn stands for model management and "dnn" is an acronym for deep neural network.
  • SPTAG : Space Partition Tree And Graph (SPTAG) is an open source library for large scale vector approximate nearest neighbor search scenario.

We encourage researchers and students leverage these projects to accelerate the AI development and research.

Install & Verify

Install through pip

  • We support Linux, MacOS and Windows (local, remote and pai mode) in current stage, Ubuntu 16.04 or higher, MacOS 10.14.1 along with Windows 10.1809 are tested and supported. Simply run the following pip install in an environment that has python >= 3.5.

Linux and MacOS

python3 -m pip install --upgrade nni

Windows

python -m pip install --upgrade nni

Note:

  • --user can be added if you want to install NNI in your home directory, which does not require any special privileges.
  • Currently NNI on Windows support local, remote and pai mode. Anaconda or Miniconda is highly recommended to install NNI on Windows.
  • If there is any error like Segmentation fault, please refer to FAQ

Install through source code

  • We support Linux (Ubuntu 16.04 or higher), MacOS (10.14.1) and Windows (10.1809) in our current stage.

Linux and MacOS

  • Run the following commands in an environment that has python >= 3.5, git and wget.
    git clone -b v1.0 https://github.com/Microsoft/nni.git
    cd nni
    source install.sh

Windows

  • Run the following commands in an environment that has python >=3.5, git and PowerShell
  git clone -b v1.0 https://github.com/Microsoft/nni.git
  cd nni
  powershell -ExecutionPolicy Bypass -file install.ps1

For the system requirements of NNI, please refer to Install NNI

For NNI on Windows, please refer to NNI on Windows

Verify install

The following example is an experiment built on TensorFlow. Make sure you have TensorFlow installed before running it.

  • Download the examples via clone the source code.
    git clone -b v1.0 https://github.com/Microsoft/nni.git

Linux and MacOS

  • Run the MNIST example.
    nnictl create --config nni/examples/trials/mnist/config.yml

Windows

  • Run the MNIST example.
    nnictl create --config nni\examples\trials\mnist\config_windows.yml
  • Wait for the message INFO: Successfully started experiment! in the command line. This message indicates that your experiment has been successfully started. You can explore the experiment using the Web UI url.
INFO: Starting restful server...
INFO: Successfully started Restful server!
INFO: Setting local config...
INFO: Successfully set local config!
INFO: Starting experiment...
INFO: Successfully started experiment!
-----------------------------------------------------------------------
The experiment id is egchD4qy
The Web UI urls are: http://223.255.255.1:8080   http://127.0.0.1:8080
-----------------------------------------------------------------------

You can use these commands to get more information about the experiment
-----------------------------------------------------------------------
         commands                       description
1. nnictl experiment show        show the information of experiments
2. nnictl trial ls               list all of trial jobs
3. nnictl top                    monitor the status of running experiments
4. nnictl log stderr             show stderr log content
5. nnictl log stdout             show stdout log content
6. nnictl stop                   stop an experiment
7. nnictl trial kill             kill a trial job by id
8. nnictl --help                 get help information about nnictl
-----------------------------------------------------------------------
  • Open the Web UI url in your browser, you can view detail information of the experiment and all the submitted trial jobs as shown below. Here are more Web UI pages.
drawing drawing

Documentation

Our primary documentation is at here and is generated from this repository.
Maybe you want to read:

How to

Tutorials

Contribute

This project welcomes contributions and there are many ways in which you can participate in the project, for example:

Before providing your hacks, you can review the Contributing Instruction to get more information. In addition, we also provide you with the following documents:

External Repositories and References

With authors' permission, we listed a set of NNI usage examples and relevant articles.

Feedback

License

The entire codebase is under MIT license

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