| bench | ||
| cores | ||
| data | ||
| riscv-target/serv | ||
| rtl | ||
| bitbang.hex | ||
| helloservice4000.hex | ||
| README.md | ||
| serv.core | ||
SERV
Prerequisites
Create a directory to keep all the different parts of the project together. We
will refer to this directory as $SERV from now on
Download the main serv repo
cd $SERV && git clone https://github.com/olofk/serv
Install FuseSoC
pip install fusesoc
Initialize the FuseSoC standard libraries
fusesoc init
Create a workspace directory for FuseSoC
mkdir $SERV/workspace
Register the serv repo as a core library
cd $SERV/workspace && fusesoc library add serv ../serv
Running test software
Build and run the zephyr hello world example with verilator
cd $SERV/workspace
fusesoc run --target=verilator_tb serv --firmware=../serv/hellomin.hex
Other applications can be tested by compiling and converting to bin and then hex e.g. with makehex.py found in $SERV/serv/riscv-target/serv
Run the compliance tests
Build the verilator model (if not already done)
cd $SERV/workspace && fusesoc run --target=verilator_tb --setup --build serv
Download the tests repo
cd $SERV && git clone https://github.com/olofk/riscv-compliance
Run the compliance tests
cd $SERV/riscv-compliance && make TARGETDIR=$SERV/serv/riscv-target RISCV_TARGET=serv RISCV_DECICE=rv32i RISCV_ISA=rv32i TARGET_SIM=$SERV/workspace/build/serv_0/verilator_tb-verilator/Vserv_wrapper
Run on hardware
Only supported so far is a LED blink hack for TinyFPGA BX
cd $SERV/workspace
fusesoc run --target=tinyfpga_bx serv
tinyprog --program build/serv_0/tinyfpga_bx-icestorm/serv_0.bin