Description
| Product ID: | 9781447166863 |
| Product Form: | Paperback / softback |
| Country of Manufacture: | GB |
| Series: | Undergraduate Topics in Computer Science |
| Title: | Designing Reliable Distributed Systems |
| Subtitle: | A Formal Methods Approach Based on Executable Modeling in Maude |
| Authors: | Author: Peter Csaba Olveczky |
| Page Count: | 313 |
| Subjects: | 3D graphics and modelling, 3D graphics & modelling, Network hardware, Software Engineering, Mathematical theory of computation, Network hardware, Software Engineering, Mathematical theory of computation |
| Description: | Select Guide Rating This classroom-tested textbook provides an accessible introduction to the design, formal modeling, and analysis of distributed computer systems. This book introduces formal modeling and analysis of distributed systems by means of executable formal modeling in rewriting logic and model checking analyses in the tool Maude. The first part of the book introduces “classical” equational algebraic specification and term rewrite systems, including reasoning about confluence and termination, as well as equational logic. The second part introduces rewriting logic and deals with the executable formal modeling of distributed systems. The book develops executable formal Maude models of classic distributed systems, which are then simulated and are further analysed through reachability analysis in Maude. In particular, the book shows how Maude can be used to break the Needham-Schroeder Public Key cryptographic protocol. Finally, the book introduces (linear) temporal logic that can be used to express complex requirements that distributed systems must satisfy and it uses Maude LTL model checker to analyze whether our models satisfy desired temporal properties. |
| Imprint Name: | Springer London Ltd |
| Publisher Name: | Springer London Ltd |
| Country of Publication: | GB |
| Publishing Date: | 2018-02-22 |
