📒 Documentation | 💛 Community support | 📚 FHE resources by Zama
Concrete is an open-source FHE Compiler that simplifies the use of fully homomorphic encryption (FHE). Built on TFHE technology and leveraging LLVM, Concrete makes writing FHE programs accessible to developers without deep cryptography expertise.
- 🚀 Simple Python API for FHE operations
- 🔒 Built-in security guarantees
- ⚡ GPU acceleration support
- 🛠 Automatic parameter selection
- 📊 Built-in performance analysis tools
- 🔄 Seamless integration with existing Python code
Fully Homomorphic Encryption (FHE) enables performing computations on encrypted data directly without the need to decrypt it first. FHE allows developers to build services that ensure privacy for all users. FHE is also an excellent solution against data breaches as everything is performed on encrypted data. Even if the server is compromised, no sensitive data will be leaked.
Concrete is a versatile library that can be used for a variety of purposes. For instance, Concrete ML is built on top of Concrete to simplify Machine-Learning oriented use cases.
- Python 3.8 - 3.12
- 8GB RAM minimum (16GB recommended)
- x86_64 or ARM64 processor
We provide multiple installation methods to suit your needs:
For CPU-only version:
pip install -U pip wheel setuptools
pip install concrete-pythonFor GPU-accelerated version:
pip install -U pip wheel setuptools
pip install concrete-python --index-url https://pypi.zama.ai/gpu# CPU version
docker pull zamafhe/concrete-python:v2.0.0
# GPU version
docker pull zamafhe/concrete-python:v2.0.0-gpu| Concrete Version | Python Version | CUDA Support |
|---|---|---|
| 2.0.0 | 3.8 - 3.12 | ≥ 11.8 |
| 1.1.0 | 3.8 - 3.10 | ≥ 11.7 |
Find more detailed installation instructions in this part of the documentation
To compute on encrypted data, you first need to define the function you want to compute, then compile it into a Concrete Circuit, which you can use to perform homomorphic evaluation. Here is the full example:
from concrete import fhe
def add(x, y):
return x + y
compiler = fhe.Compiler(add, {"x": "encrypted", "y": "encrypted"})
inputset = [(2, 3), (0, 0), (1, 6), (7, 7), (7, 1), (3, 2), (6, 1), (1, 7), (4, 5), (5, 4)]
print(f"Compilation...")
circuit = compiler.compile(inputset)
print(f"Key generation...")
circuit.keygen()
print(f"Homomorphic evaluation...")
encrypted_x, encrypted_y = circuit.encrypt(2, 6)
encrypted_result = circuit.run(encrypted_x, encrypted_y)
result = circuit.decrypt(encrypted_result)
assert result == add(2, 6)This example is explained in more detail in this part of the documentation.
Note
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- Part I: Concrete, Zama's Fully Homomorphic Compiler
- Part II: The Architecture of Concrete, Zama's Fully Homomorphic Encryption Compiler Leveraging MLIR
- [Video tutorial] Dive into Concrete - Zama's Fully Homomorphic Encryption Compiler
- [Video tutorial] How To Get Started With Concrete - Zama's Fully Homomorphic Encryption Compiler
- The Encrypted Game of Life in Python Using Concrete
- Encrypted Key-value Database Using Homomorphic Encryption
Explore more useful resources in Concrete tutorials and Awesome Zama repo. If you have built awesome projects using Concrete, please let us know and we will be happy to showcase them here!
Full, comprehensive documentation is available at https://docs.zama.ai/concrete.
To cite Concrete in academic papers, please use the following entry:
@Misc{Concrete,
title={{Concrete: TFHE Compiler that converts python programs into FHE equivalent}},
author={Zama},
year={2022},
note={\url{https://github.com/zama-ai/concrete}},
}
There are two ways to contribute to Concrete. You can:
- Open issues to report bugs and typos, or to suggest new ideas
- Request to become an official contributor by emailing hello@zama.ai.
Becoming an approved contributor involves signing our Contributor License Agreement (CLA). Only approved contributors can send pull requests (PRs), so get in touch before you do!
Additionally, you can contribute to advancing the FHE space with Zama by participating in our Bounty Program and Grant Programs!
This software is distributed under the BSD-3-Clause-Clear license. Read this for more details.
Is Zama’s technology free to use?
Zama’s libraries are free to use under the BSD 3-Clause Clear license only for development, research, prototyping, and experimentation purposes. However, for any commercial use of Zama's open source code, companies must purchase Zama’s commercial patent license.
Everything we do is open source and we are very transparent on what it means for our users, you can read more about how we monetize our open source products at Zama in this blog post.
What do I need to do if I want to use Zama’s technology for commercial purposes?
To commercially use Zama’s technology you need to be granted Zama’s patent license. Please contact us at hello@zama.ai for more information.
Do you file IP on your technology?
Yes, all Zama’s technologies are patented.
Can you customize a solution for my specific use case?
We are open to collaborating and advancing the FHE space with our partners. If you have specific needs, please email us at hello@zama.ai.
🌟 If you find this project helpful or interesting, please consider giving it a star on GitHub! Your support helps to grow the community and motivates further development.
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