Nyuzi is an experimental multicore GPGPU processor. It supports vector floating point, hardware multithreading, and cache coherence. The SystemVerilog-based hardware implementation is synthesizable and runs on FPGA. This project also includes an LLVM-based C++ toolchain, tests, and other tools. It is useful for microarchitecture experimentation, performance modeling, and parallel software development.
The following instructions explain how to set up the Nyuzi development environment. This includes an emulator and cycle-accurate hardware simulator, which allow hardware and software development without an FPGA.
This requires Ubuntu 14 or later to get the proper package versions. It should work for other distributions, but you will probably need to change some package names.
sudo apt-get -y install autoconf cmake make gcc g++ bison flex python / perl emacs openjdk-7-jdk swig zlib1g-dev python-dev libxml2-dev / libedit-dev ncurses-dev libsdl2-dev gtkwave imagemagick
Emacs is used for verilog-mode AUTO macros. The makefile executes this operation in batch mode
These instructions assume Mavericks or later. If you don’t have XCode, install the command line compiler like this:
The next command installs the remaining packages, assuming you’ve installed MacPorts :
sudo port install cmake bison swig swig-python imagemagick libsdl2 curl emacs
You may optionally install GTKWave for analyzing waveform files.
I have not tested this on Windows. Many of the libraries are cross platform, so it should be possible to port it. But the easiest route is probably to run Linux under a virtual machine like VirtualBox .
Build (Linux & MacOS)
The following script will download and install theNyuzi toolchain and Verilator Verilog simulator. (Although some Linux package managers have Verilator, they have old versions).
Build everything else:
If you are on a Linux distribution that defaults to python3, you may run into build problems with the compiler. In tools/NyuziToolchain/tools/CMakeLists.txt, comment out the following line:
Sample applications are available insoftware/apps. You can run these in the emulator by typing ‘make run’ (some need 3rd party data files, details are in the READMEs in those directories).
For example, this will render a 3D model:
cd software/apps/sceneview make run
Running on FPGA
See instructions in hardware/fpga/de2-115/README.md