The Concrete Compiler is a set of tools that allows the compilation and from an high-level and crypto free representation of an arithmetic circuit of operations on encrypted integers. This compiler is based on the MLIR project it use the framework, the standard dialects exposed by MLIR and define new fhe specific dialects and passes to lower the high-level fhe dialects to standard MLIR dialects.

Getting started

The source of the project is located in the compiler directory.

cd compiler

Prerequisite: Building HPX and enable dataflow parallelism (optional)

In order to implement the dataflow parallelism and the distribution of the computation we use the HPX Standard Library. You can else use your own HPX installation by set the HPX_INSTALL_DIR environment variable or you can install HPX on the default path of our build system thanks the following command:

make install-hpx-from-source

This may fail on some systems when dependencies are missing. Some recent packages required are Cmake, HWLOC and BOOST. For full details see HPX Quickstart guide. Once you have a proper installation of HPX to enable the dataflow parallelism set the DATAFLOW_EXECUTION_ENABLED=ON.

Prerequisite: Fetch git submodules

This project rely on llvm-project and concrete-optimizer as git submodules so you need to initialize and update the git submodules.

git submodule init
git submodule update

Prerequisite: python packages

Install MLIR python requirements in your dev python environment:

# From repo root
pip install -r ./llvm-project/mlir/python/requirements.txt
# From compiler dir
pip install -r ../llvm-project/mlir/python/requirements.txt

Build from source

We use cmake as the main build system but in order to initialize the build system and define straightforward target for the main artifacts of the project. You can initialize and build all the main artifacts thanks the following command:

make all

or in several steps:

Generate the compiler build system, in a build-* directory

make build-initialized

Build the compiler

make concretecompiler

Run the compiler

./build-Release/bin/concretecompiler

Installation from source

You can install libs, bins, and include files into a specific directory by running:

make INSTALL_PREFIX=/your/directory install

You will then find lib, bin, and include under /your/directory/concretecompiler.

Tests

You can build all the tests with the following command:

make build-tests

and run them with:

make run-tests

Benchmarks

You can build all the benchmarks with the following command:

make build-benchmarks

and run them with:

make run-benchmarks

Build releases

Build tarball

You can create a tarball containing libs, bins, and include files for the tools of the compiler, by following previous steps of installation from source, then creating a tar archive from the installation directory.

Build the Python Package

Currently supported platforms:

Linux x86_64 for python 3.7, 3.8, 3.9, and 3.10

pybind11 is required to build the python package, you can install it in your current environment with:

$ pip install pybind11

To specify which python executable to target you can specify the Python3_EXECUTABLE environment variable.

Build wheels in your environment

Building the wheels is actually simple.

$ pip wheel --no-deps -w ../wheels .

Depending on the platform you are using (specially Linux), you might need to use auditwheel to specify the platform this wheel is targeting. For example, in our build of the package for Linux x86_64 and GLIBC 2.24, we also run:

$ auditwheel repair ../wheels/*.whl --plat manylinux_2_24_x86_64 -w ../wheels