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cocotb, a coroutine based cosimulation library for writing VHDL and Verilog testbenches in Python

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cocotb is a coroutine based cosimulation library for writing VHDL and Verilog testbenches in Python.

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Note: The current master branch of the cocotb repository is expected to be released as cocotb 2.0, which contains API-breaking changes from previous 1.x releases. Please use the stable/1.9 branch if you're building cocotb from source, or just install it from PyPi.

Installation

The current stable version of cocotb requires:

After installing these dependencies, the latest stable version of cocotb can be installed with pip.

pip install cocotb

For more details on installation, including prerequisites, see the documentation.

For details on how to install the development version of cocotb, see the preliminary documentation of the future release.

Usage

As a first trivial introduction to cocotb, the following example "tests" a flip-flop.

First, we need a hardware design which we can test. For this example, create a file dff.sv with SystemVerilog code for a simple D flip-flop. You could also use any other language a cocotb-supported simulator understands, e.g. VHDL.

// dff.sv

`timescale 1us/1ns

module dff (
    output logic q,
    input logic clk, d
);

always @(posedge clk) begin
    q <= d;
end

endmodule

An example of a simple randomized cocotb testbench:

# test_dff.py

import random

import cocotb
from cocotb.clock import Clock
from cocotb.triggers import RisingEdge
from cocotb.types import LogicArray

@cocotb.test()
async def dff_simple_test(dut):
    """Test that d propagates to q"""

    # Assert initial output is unknown
    assert LogicArray(dut.q.value) == LogicArray("X")
    # Set initial input value to prevent it from floating
    dut.d.value = 0

    clock = Clock(dut.clk, 10, units="us")  # Create a 10us period clock on port clk
    # Start the clock. Start it low to avoid issues on the first RisingEdge
    cocotb.start_soon(clock.start(start_high=False))

    # Synchronize with the clock. This will regisiter the initial `d` value
    await RisingEdge(dut.clk)
    expected_val = 0  # Matches initial input value
    for i in range(10):
        val = random.randint(0, 1)
        dut.d.value = val  # Assign the random value val to the input port d
        await RisingEdge(dut.clk)
        assert dut.q.value == expected_val, f"output q was incorrect on the {i}th cycle"
        expected_val = val # Save random value for next RisingEdge

    # Check the final input on the next clock
    await RisingEdge(dut.clk)
    assert dut.q.value == expected_val, "output q was incorrect on the last cycle"

A simple Makefile:

# Makefile

TOPLEVEL_LANG = verilog
VERILOG_SOURCES = $(shell pwd)/dff.sv
TOPLEVEL = dff
MODULE = test_dff

include $(shell cocotb-config --makefiles)/Makefile.sim

In order to run the test with Icarus Verilog, execute:

make SIM=icarus

asciicast

For more information please see the cocotb documentation and our wiki.

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  • Python 38.6%
  • C 24.4%
  • C++ 20.5%
  • VHDL 8.0%
  • Makefile 4.5%
  • SystemVerilog 2.1%
  • Other 1.9%