{SALT}–-Structured Assertion Language for Temporal Logic
| Title | {SALT}–-Structured Assertion Language for Temporal Logic |
| Publication Type | Conference Paper |
| Year of Publication | 2006 |
| Authors | Bauer, A, Leucker, M, Streit, J |
| Conference Name | Proceedings of the Eighth International Conference on Formal Engineering Methods |
| Series | Lecture Notes in Computer Science |
| Volume | 4260 |
| Abstract | This paper presents SALT. SALT is a general purpose specification and assertion language developed for creating concise temporal specifications to be used in industrial verification environments. It incorporates ideas of existing approaches, such as specification patterns, but also provides nested scopes, exceptions, support for regular expressions and real-time. The latter is needed in particular for verification tasks to do with reactive systems imposing strict execution times and deadlines. However, unlike other formalisms used for temporal specification of properties, SALT does not target a specific domain. The paper details on the design rationale, syntax and semantics of SALT in terms of a translation to temporal (real-time) logic, as well as on the realisation in form of a compiler. Our results will show that the higher level of abstraction introduced with SALT does not deprave the efficiency of the subsequent verification tools–-rather, on the contrary. |
@inproceedings {BauerLeuckerStreit06,
title = {{SALT}{\textendash}-Structured Assertion Language for Temporal Logic},
booktitle = {Proceedings of the Eighth International Conference on Formal Engineering Methods},
series = {Lecture Notes in Computer Science},
volume = {4260},
year = {2006},
abstract = {This paper presents SALT. SALT is a general purpose specification and assertion language developed for creating concise temporal specifications to be used in industrial verification environments. It incorporates ideas of existing approaches, such as specification patterns, but also provides nested scopes, exceptions, support for regular expressions and real-time. The latter is needed in particular for verification tasks to do with reactive systems imposing strict execution times and deadlines. However, unlike other formalisms used for temporal specification of properties, SALT does not target a specific domain. The paper details on the design rationale, syntax and semantics of SALT in terms of a translation to temporal (real-time) logic, as well as on the realisation in form of a compiler. Our results will show that the higher level of abstraction introduced with SALT does not deprave the efficiency of the subsequent verification tools{\textendash}-rather, on the contrary.},
author = {Andreas Bauer and Martin Leucker and Jonathan Streit}
}
