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https://github.com/cristian-mattarei/CoSA

CoreIR Symbolic Analyzer
https://github.com/cristian-mattarei/CoSA

formal-methods formal-verification hardware-verification model-checking satisfiability-modulo-theories systemverilog verilog

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CoreIR Symbolic Analyzer

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README 

        
.. figure:: http://www.mattarei.eu/cristian/images/CoSA-logo_small.png

   :align: center

   

CoSA: CoreIR Symbolic Analyzer

========================



...an SMT-based symbolic model checker for hardware design. 



========================

Overview

========================



CoSA supports a variety of input formats:



- `CoreIR`_

- `BTOR2`_

- Verilog (with Yosys)

- SystemVerilog (with Verific)

- Symbolic Transition System (`STS`_)

- Explicit states Transition System (`ETS`_)



and verifications:



- Invariant Properties

- Linear Temporal Logic (LTL) Properties

- Proving capabilities

- Equivalence Checking

- Parametric (Invariant) Model Checking

- Fault Analysis

- Automated Lemma Extraction



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Installation

========================



1) ``pip3 install cosa`` to install CoSA, and its dependencies i.e., `PySMT`_, `PyCoreIR`_, and `PyVerilog`_



2) ``pysmt-install --msat`` to install `MathSAT5`_ solver (it provides interpolation support), or ``pysmt-install --cvc4`` for `CVC4`_ and ``pysmt-install --z3`` for `Z3`_ and ``pysmt-install --btor`` for `Boolector`_



3) ``pysmt-install --env`` to show the environment variables that need to be exported



Software requirements:



- `Python3`_ -- Full support requires Python3.6 or higher, however running without the `CoreIR`_ inputs should work on older Python 3 versions

- `Pip3`_: package manager -- easiest way to install CoSA. On Debian: `apt-get update; apt-get install python3-pip`.

- `Cmake`_ and a standard C++ compiler for `CoreIR`_ / `PyCoreIR`_

- `Yosys`_ needs to be installed in order to support Verilog as an input format

- `Verific`_ binaries or Yosys built with Verific library in order to support SystemVerilog as an input format [Commercial Tool]



.. _BTOR2: https://github.com/Boolector/btor2tools

.. _Boolector: https://github.com/Boolector/boolector

.. _Cmake: https://cmake.org/

.. _CoreIR: https://github.com/rdaly525/coreir

.. _CVC4: http://cvc4.cs.stanford.edu/web/

.. _ETS: https://github.com/cristian-mattarei/CoSA/blob/master/doc/ets.rst

.. _Git: https://www.atlassian.com/git/tutorials/install-git

.. _Icarus Verilog: https://github.com/steveicarus/iverilog

.. _MathSAT5: http://mathsat.fbk.eu

.. _Pip3: https://pypi.org/project/pip/

.. _PyCoreIR: https://github.com/leonardt/pycoreir

.. _PySMT: https://github.com/pysmt/pysmt

.. _Python3: https://www.python.org/downloads/

.. _PyVerilog: https://github.com/PyHDI/Pyverilog

.. _STS: https://github.com/cristian-mattarei/CoSA/blob/master/doc/sts.rst

.. _Verific: http://www.verific.com/

.. _Yosys: https://github.com/YosysHQ/yosys

.. _Z3: https://github.com/Z3Prover/z3



========================

Installation from Source

========================

- Install `Git`_

- ``git clone https://github.com/cristian-mattarei/CoSA.git``

- ``cd CoSA``

- ``pip3 install -e .``



Pip will automatically install the Python dependencies. To install Yosys for Verilog support, follow the instructions `here

`_.



Note: If running in a Python virtualenv, pip will install the ``CoSA`` script in ``~/.local/bin``, so be sure it's added to your ``PATH`` with ``export PATH=~/.local/bin:$PATH``.



To run tests (tests include Veriog models and thus require Yosys):



- ``nosetests tests``



========================

Usage

========================



To start playing with the tool, you can run:



0) ``CoSA -h`` shows the helper with command options



1) ``CoSA -i examples/counters/counters.json --verification simulation -k 7`` generates a system execution with depth 7



2) ``CoSA -i examples/counters/counters.json --safety -p "!(count0.a.out = 5_16)" -k 7`` performs reachability model checking with property count0.a.out != 5 as a 16-bit Bitvector



3) ``CoSA --problem examples/counter/problem.txt --prefix trace`` performs liveness (GF) and finally (F) checking on the counter.json model using the problem definition



4) ``CoSA --problem examples/fold-constants/problem.txt`` performs equivalence checking using lemmas



For more information, please refer to the `CoSA user manual`_.



.. _CoSA user manual: https://github.com/cristian-mattarei/CoSA/blob/master/doc/manual/CoSA-manual.pdf



========================

Docker

========================



1) install Docker with your package manager e.g., ``sudo apt-get install docker``



2) build the Docker image: ``cd docker/ubuntu_1604 && docker build -t ubuntu-cosa .``



3) run the Docker image: ``docker run -i -t ubuntu-cosa /bin/bash``



========================

License

========================



CoSA is released under the modified BSD (3-clause BSD) License.



If you use CoSA in your work, please consider citing the following publication:



.. code::



   @inproceedings{DBLP:conf/fmcad/MattareiMBDHH18,

     author    = {Cristian Mattarei and

                 Makai Mann and

                 Clark Barrett and

                 Ross G. Daly and

                 Dillon Huff and

                 Pat Hanrahan},

    title     = {{CoSA: Integrated Verification for Agile Hardware Design}},

    booktitle = {Formal Methods in Computer-Aided Design, {FMCAD} 2018, Austin, Texas,

                 USA, October 30 - November 2, 2018.},

    publisher = {{IEEE}},

    year      = {2018}

  }



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Build Status

========================



.. image:: https://travis-ci.org/cristian-mattarei/CoSA.svg?branch=master

    :target: https://travis-ci.org/cristian-mattarei/CoSA