Foreword.- Preface.- Part I: Historic Account.- ProCoS: How It All Began – As Seen from Denmark.- Part II: Hybrid Systems.- Constraint-Solving Techniques for the Analysis of Probabilistic Hybrid Systems.- MARS: A Tool chain for Modelling, Analysis and Verification of Hybrid Systems.- Part III: Correctness of Concurrent Algorithms.- A Proof Method for Linearizability on TSO Architectures.- Part IV: Interfaces and Linking.- Linking Discrete and Continuous Models, Applied to Traffic Manoeuvres.- Towards Interface-Driven Design of Evolving Component-Based Architectures.- Part V: Automatic Verification.- Computing Verified Machine Address Bounds during Symbolic Exploration of Code.- Engineering a Formal, Executable x86 ISA Simulator for Software Verification.- Advances in Connection-Based Automated Theorem Proving.- Part VI: Run-Time Assertion Checking.- Run-Time Deadlock Detection.- In-Circuit Assertions and Exceptions for Reconfigurable Hardware Design.- Part VII: Formal and Semi-Formal Methods.- From ProCoS to Space and Mental Models – a Survey of Combing Formal and Semi-Formal Methods.- Part VIII: Web-Supported Communities in Science.- Provably Correct Systems: Community, Connections and Citations.
As computers increasingly control the systems and services we depend upon within our daily lives like transport, communications, and the media, ensuring these systems function correctly is of utmost importance. This book consists of twelve chapters and one historical account that were presented at a workshop in London in 2015, marking the 25th anniversary of the European ESPRIT Basic Research project ‘ProCoS’ (Provably Correct Systems).
The ProCoS I and II projects pioneered and accelerated the automation of verification techniques, resulting in a wide range of applications within many trades and sectors such as aerospace, electronics, communications, and retail.
The following topics are covered:
An historical account of the ProCoS project
Hybrid Systems
Correctness of Concurrent Algorithms
Interfaces and Linking
Automatic Verification
Run-time Assertions Checking
Formal and Semi-Formal Methods
Provably Correct Systems provides researchers, designers and engineers with a complete overview of the ProCoS initiative, past and present, and explores current developments and perspectives within the field.