Summary

Repository for compilation and cycle-accurate simulator for scale-out systolic arrays.

How to install prerequisites?

Execute the following from the root directory of the repository:

bash ./install.sh

This command automatically install CMake and Boost.

How to build?

Use CMake to build (assuming in the repository root directory):

mkdir build-Debug  # directory for out-of-source build
cd build-Debug
cmake .. -DCMAKE_PREFIX_PATH="$HOME/.local"
make

If you want a highly optimized release build, use instead:

mkdir build-Release  # directory for out-of-source build
cd build-Release
cmake .. -DCMAKE_PREFIX_PATH="$HOME/.local" -DCMAKE_BUILD_TYPE=Release
make

You can use CMake and CMake Tools extensions of vscode to facilitate development. Let CMake Tools configure IntelliSense.

How to run?

Precompile a Keras model

python precompiler/precompile.py  # --help for information about optional arguments

Run binaries

./build-Release/compiler_st # --help for information about optional arguments

To reproduce the results in the original paper or to see example execution, check run_experiments.py

How to use in Python scripts?

To use the C-simulator in Python projects, we provide a Python binder for the C binaries. Please check pybinder_tester.py for example usage.

Visual Studio Code configuration

After installation finishes, make sure that you restart vscode first by running "Remote-SSH: kill VS Code Server on Host...".

We provide settings.json and launch.json files to ease debugging and development. Please take a look at these files to have an idea what is going on under the hood.