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- The original repository is now located on my own git-server at [https://git.goodcleanfun.de/tmeissner/cocotb_with_ghdl](https://git.goodcleanfun.de/tmeissner/cocotb_with_ghdl)
- It is mirrored to github with every push, so both should be in sync.
-
- # cocotb_with_ghdl
-
- *At the moment, this repo is in an early state and serves as a learning tool for me. So it contains a a lot of quirks and code which can be done much better by cocotb-professionals.*
-
- A collection of examples of using [cocotb](https://www.cocotb.org/) for functional verification of VHDL designs with [GHDL](https://github.com/ghdl/ghdl).
-
- This is a project with the purpose to learn using cocotb with GHDL. It is intended for my simple (and more complex in future) experiments with using the Python language instead of VHDL or SV to verify digital designs.
-
- It is recommended to use an up-to-date version of GHDL as potential bugs are fixed very quickly. You can build GHDL from source or use one of the Docker images of the [hdl containers project](https://hdl.github.io/containers/) (recommended). For example the `hdlc/sim:scipy` docker image. This image contains a recent version of cocotb and a C++ compiler (needed to build some wheels during installing requirements with pip).
-
- Have fun!
-
- ## Quickstart guide
-
- ### Dependencies
- *cocotb_with_ghdl* uses external libraries to get the components to verify. They are shipped as git submodules. You have to use the `--recursive` option when clone
- the *cocotb_with_ghdl* repository to get them: `git clone --recursive https://git.goodcleanfun.de/tmeissner/cocotb_with_ghdl`
-
- Another useful tool is GTKWave, install it if you want to use the waveform files generated by some of the tests.
-
-
- ### Change into docker container & install requirements
- ```
- $ git clone https://git.goodcleanfun.de/tmeissner/cocotb_with_ghdl.git
- $ cd cocotb_with_ghdl
- $ ./env-setup.sh
- $ docker run --rm -ti --volume=$(pwd):/build -e DISPLAY=$DISPLAY \
- --volume /tmp/.X11-unix:/tmp/.X11-unix hdlc/sim:scipy /bin/bash
- $ ./docker-setup.sh
- Collecting cocotb-bus
- Downloading cocotb-bus-0.2.1.tar.gz (28 kB)
- Installing build dependencies ... done
- Getting requirements to build wheel ... done
- Preparing wheel metadata ... done
- ...
- Successfully built cocotb-bus wavedrom python-constraint
- Installing collected packages: lxml, cocotb-bus, toposort, svgwrite, pyyaml, pyucis, python-constraint, pyboolector, cocotbext-axi, attrdict, wavedrom, pyvsc, pyuvm, cocotbext-uart, cocotbext-spi, cocotbext-pcie, cocotbext-eth, cocotb-coverage
- Successfully installed attrdict-2.0.1 cocotb-bus-0.2.1 cocotb-coverage-1.1.0 cocotbext-axi-0.1.18 cocotbext-eth-0.1.18 cocotbext-pcie-0.1.20 cocotbext-spi-0.1.2 cocotbext-uart-0.1.2 lxml-4.7.1 pyboolector-3.2.2.20220125.14 python-constraint-1.4.0 pyucis-0.0.5.20211020.1 pyuvm-2.6.1 pyvsc-0.6.7.1792877175 pyyaml-6.0 svgwrite-1.4.1 toposort-1.7 wavedrom-2.0.3.post2
-
- ```
-
- ### Run default test (UART TX)
- ```
- root@6ee2bee145d4:~# cd /build/tests/
- root@6ee2bee145d4:/build/tests# make
- make -f Makefile results/uarttx.xml
- make[1]: Entering directory '/build/tests'
- mkdir -p results
- mkdir -p work
- /usr/local/bin/ghdl -i --std=08 --workdir=work --work=libvhdl ../libvhdl/common/UtilsP.vhd && \
- /usr/local/bin/ghdl -i --std=08 --workdir=work --work=work ../libvhdl/syn/*.vhd && \
- /usr/local/bin/ghdl -m --std=08 --workdir=work -Pwork --work=work uarttx
- analyze ../libvhdl/common/UtilsP.vhd
- analyze ../libvhdl/syn/UartTx.vhd
- elaborate uarttx
- MODULE=tb_uarttx TESTCASE= TOPLEVEL=uarttx TOPLEVEL_LANG=vhdl \
- /usr/local/bin/ghdl -r --workdir=work -Pwork --work=work uarttx --vpi=/usr/local/lib/python3.9/dist-packages/cocotb/libs/libcocotbvpi_ghdl.so --wave=results/uarttx.ghw --psl-report=results/uarttx_psl.json --vpi-trace=results/uarttx_vpi.log
- loading VPI module '/usr/local/lib/python3.9/dist-packages/cocotb/libs/libcocotbvpi_ghdl.so'
- -.--ns INFO cocotb.gpi ..mbed/gpi_embed.cpp:76 in set_program_name_in_venv Did not detect Python virtual environment. Using system-wide Python interpreter
- -.--ns INFO cocotb.gpi ../gpi/GpiCommon.cpp:99 in gpi_print_registered_impl VPI registered
- VPI module loaded!
- 0.00ns INFO Running on GHDL version 2.0.0-dev (v1.0.0-974-g0e46300c) [Dunoon edition]
- 0.00ns INFO Running tests with cocotb v1.7.0.dev0 from /usr/local/lib/python3.9/dist-packages/cocotb
- 0.00ns INFO Seeding Python random module with 1644236947
- ...
- 0.00ns INFO Found test tb_uart.test_uarttx
- 0.00ns INFO running test_uarttx (1/1)
- First simple test
- 0.00ns INFO Valid-accept driver
- 0.00ns INFO cocotbext-vai version 0.0.1
- 0.00ns INFO Copyright (c) 2022 Torsten Meissner
- 0.00ns INFO UART receiver
- 0.00ns INFO cocotbext-uart version 0.0.1
- 0.00ns INFO Copyright (c) 2022 Torsten Meissner
- 0.00ns INFO Hold reset
- 100.00ns INFO Released reset
- 110.00ns INFO Sending data: 0xaf
- 1170.00ns INFO Received data: 0xaf
- 1190.00ns INFO Sending data: 0x56
- 2280.00ns INFO Received data: 0x56
- ...
- 10070.00ns INFO Sending data: 0x70
- 11160.00ns INFO Received data: 0x70
- 11160.00ns INFO test_uarttx passed
- 11160.00ns INFO **************************************************************************************
- ** TEST STATUS SIM TIME (ns) REAL TIME (s) RATIO (ns/s) **
- **************************************************************************************
- ** tb_uart.test_uarttx PASS 11160.00 0.23 48943.29 **
- **************************************************************************************
- ** TESTS=1 PASS=1 FAIL=0 SKIP=0 11160.00 0.31 35939.72 **
- **************************************************************************************
-
- make[1]: Leaving directory '/build/tests
- ```
-
- ## Available Tests
-
-
- ### AES
-
- Simple tests of AES of the *cryptocores* project
-
- * `make DUT=aes`
-
- ### UART
-
- Simple tests of UART transmitter & receiver of the *libvhdl* project
-
- * `make DUT=uarttx` or `make`
- * `make DUT=uartrx`
-
- ### Wishbone
-
- Simple tests of Wishbone slave of the *libvhdl* project
-
- * `make DUT=wishbone`
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