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A framework for Privacy Preserving Machine Learning

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CrypTen is a framework for Privacy Preserving Machine Learning built on PyTorch. Its goal is to make secure computing techniques accessible to Machine Learning practitioners. It currently implements Secure Multiparty Computation as its secure computing backend and offers three main benefits to ML researchers:

  1. It is machine learning first. The framework presents the protocols via a CrypTensor object that looks and feels exactly like a PyTorch Tensor. This allows the user to use automatic differentiation and neural network modules akin to those in PyTorch.

  2. CrypTen is library-based. It implements a tensor library just as PyTorch does. This makes it easier for practitioners to debug, experiment on, and explore ML models.

  3. The framework is built with real-world challenges in mind. CrypTen does not scale back or oversimplify the implementation of the secure protocols.

Here is a bit of CrypTen code that encrypts and decrypts tensors and adds them

import torch
import crypten

crypten.init()

x = torch.tensor([1.0, 2.0, 3.0])
x_enc = crypten.cryptensor(x) # encrypt

x_dec = x_enc.get_plain_text() # decrypt

y_enc = crypten.cryptensor([2.0, 3.0, 4.0])
sum_xy = x_enc + y_enc # add encrypted tensors
sum_xy_dec = sum_xy.get_plain_text() # decrypt sum

It is currently not production ready and its main use is as a research framework.

Installing CrypTen

CrypTen currently runs on Linux and Mac with Python 3.7. Windows is not supported. We also do not currently support computation on GPUs.

For Linux or Mac

pip install crypten

If you want to run the examples in the examples directory, you should also do the following

pip install -r requirements.examples.txt

Examples

To run the examples in the examples directory, you additionally need to clone the repo and

pip install -r requirements.examples.txt

We provide examples covering a range of models in the examples directory

  1. The linear SVM example, mpc_linear_svm, generates random data and trains a SVM classifier on encrypted data.
  2. The LeNet example, mpc_cifar, trains an adaptation of LeNet on CIFAR in cleartext and encrypts the model and data for inference.
  3. The TFE benchmark example, tfe_benchmarks, trains three different network architectures on MNIST in cleartext, and encrypts the trained model and data for inference.
  4. The bandits example, bandits, trains a contextual bandits model on encrypted data (MNIST).
  5. The imagenet example, mpc_imagenet, performs inference on pretrained models from torchvision.

For examples that train in cleartext, we also provide pre-trained models in cleartext in the model subdirectory of each example subdirectory.

You can check all example specific command line options by doing the following; shown here for tfe_benchmarks:

python examples/tfe_benchmarks/launcher.py --help

How CrypTen works

We have a set of tutorials in the tutorials directory to show how CrypTen works. These are presented as Jupyter notebooks so please install the following in your conda environment

conda install ipython jupyter
pip install -r requirements.examples.txt
  1. Introduction.ipynb - an introduction to Secure Multiparty Compute; CrypTen's underlying secure computing protocol; use cases we are trying to solve and the threat model we assume.
  2. Tutorial_1_Basics_of_CrypTen_Tensors.ipynb - introduces CrypTensor, CrypTen's encrypted tensor object, and shows how to use it to do various operations on this object.
  3. Tutorial_2_Inside_CrypTensors.ipynb – delves deeper into CrypTensor to show the inner workings; specifically how CrypTensor uses MPCTensor for its backend and the two different kind of sharings, arithmetic and binary, are used for two different kind of functions. It also shows CrypTen's MPI-inspired programming model.
  4. Tutorial_3_Introduction_to_Access_Control.ipynb - shows how to train a linear model using CrypTen and shows various scenarios of data labeling, feature aggregation, dataset augmentation and model hiding where this is applicable.
  5. Tutorial_4_Classification_with_Encrypted_Neural_Networks.ipynb – shows how CrypTen can load a pre-trained PyTorch model, encrypt it and then do inference on encrypted data.
  6. Tutorial_5_Under_the_hood_of_Encrypted_Networks.ipynb - examines how CrypTen loads PyTorch models, how they are encrypted and how data moves through a multilayer network.
  7. Tutorial_6_CrypTen_on_AWS_instances.ipynb - shows how to use scrips/aws_launcher.py to launch our examples on AWS. It can also work with your code written in CrypTen.
  8. Tutorial_7_Training_an_Encrypted_Neural_Network.ipynb - introduces the automatic differentiation functionality of CrypTensor. This functionality makes it easy to train neural networks in CrypTen.

Documentation and citing

CrypTen is documented here.

The protocols and design protocols are described in this paper. If you want to cite CrypTen in your papers (much appreciated!), you can cite it as follows:

@inproceedings{crypten2020,
  author={B. Knott and S. Venkataraman and A.Y. Hannun and S. Sengupta and M. Ibrahim and L.J.P. van der Maaten},
  title={CrypTen: Secure Multi-Party Computation Meets Machine Learning},
  booktitle={Proceedings of the NeurIPS Workshop on Privacy-Preserving Machine Learning},
  year={2020},
}

Join the CrypTen community

Please contact us to join the CrypTen community on Slack

See the CONTRIBUTING file for how to help out.

License

CrypTen is MIT licensed, as found in the LICENSE file.

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