| fw | ||
| rtl | ||
| test | ||
| .dockerignore | ||
| .gitignore | ||
| CMakeLists.txt | ||
| Dockerfile | ||
| README.md | ||
Collection of SystemVerilog simple RV32I CPU cores
Table of contents
Core list
- Single cycle processor
- 5-Stage pipelined processor with hazard detection
- 5-Stage pipelined processor with N-way associative cache
Directory structure
.
├── fw # Firmware
│ ├── sandbox # C/Assembly sandbox firmware source
│ └── test # Assembly programs used for testbenchs
├── rtl # RTL Modules
└── test # SystemVerilog testbenchs
Requirements
- SystemVerilog simulator
- CMake
- 32-bit GNU RISC-V toolchain
If your package manager does not provide the RISC-V GNU toolchain you can compile it from their main repository or for Windows you can download the xPack pre-compiled binaries.
Docker enviroment
There is a docker enviroment image with all the dependencies already pre-installed. For getting docker check their installation instruction site.
Tip: If you run into problems running docker make sure you have:
- WSL2 installed in case of Windows
- Secure Boot disabled and Virtualization enabled in your BIOS settings
To set up the enviroment pull the image from the container registry and run it:
docker pull git.1159.cl/mario1159/rvscc
docker run -it git.1159.cl/mario1159/rvscc
Build
To build the firmware that will be loaded in the instruction memory execute CMake in the fw directory specifying the RISC-V toolchain and build the recipe based in your selected generator (make in the following example).
cmake -DCMAKE_TOOLCHAIN_FILE=./cmake/toolchain.cmake -Bbuild
make -Cbuild
This will generate a sandbox.mem file in the /build folder. To load the file in the simulation make sure to add it to your simulator sources and that the memory path matches the path specifies in the memory module.
Tests
(TODO)
Benchmark
(TODO)