Part of the Wiley Series on Parallel and Distributed Computing, Verification of Systems and Circuits Using LOTOS, Petri Nets, and CCS provides computer science students and practicing logic design engineers with a step-by-step interactive introduction to formal verification of systems and circuits. This text makes use of two powerful analysis tool sets: LOTOS-based CADP & Petri-Net based PETRIFY. The systems considered include: the alternating-bit protocol, arbiters, pipeline controllers, up-down counters, and phase converters.
A Step-by-Step Guide to Verification of Digital Systems
This practical book provides a step-by-step, interactive introduction to formal verification of systems and circuits. The book offers theoretical background and introduces the application of three powerful verification toolsets: LOTOS-based CADP, Petri nets-based PETRIFY, and CCS-based CWB. The book covers verification of modular asynchronous circuits, alternating-bit protocols, arbiters, pipeline controllers, up-down counters, and phase converters, as well as many other verification examples.
Using the given detailed examples, exercises, and easy-to-follow tutorials, complete with the downloadable toolsets available via referenced Web sites, this book serves as an ideal text in advanced undergraduate and graduate courses in computer science and electrical engineering. It is also valuable as a desktop reference for practicing verification engineers who are interested in verifying that designed digital systemsmeet specifications and requirements.
A Step-by-Step Guide to Verification of Digital Systems
This practical book provides a step-by-step, interactive introduction to formal verification of systems and circuits. The book offers theoretical background and introduces the application of three powerful verification toolsets: LOTOS-based CADP, Petri nets-based PETRIFY, and CCS-based CWB. The book covers verification of modular asynchronous circuits, alternating-bit protocols, arbiters, pipeline controllers, up-down counters, and phase converters, as well as many other verification examples.
Using the given detailed examples, exercises, and easy-to-follow tutorials, complete with the downloadable toolsets available via referenced Web sites, this book serves as an ideal text in advanced undergraduate and graduate courses in computer science and electrical engineering. It is also valuable as a desktop reference for practicing verification engineers who are interested in verifying that designed digital systemsmeet specifications and requirements.