Non-Sequential Theory of Distributed Systems
Abstract
These lecture notes cover basic automata-theoretic concepts and logical formalisms for the modeling and verification of concurrent and distributed systems. Many of these concepts naturally extend the classical automata and logics over words, which provide a framework for modeling sequential systems. A distributed system, on the other hand, combines several (finite or recursive) processes, and will therefore be modeled as a collection of (finite or pushdown, respectively) automata. A crucial parameter of a distributed system is the kind of interaction that is allowed between processes. In this lecture, we focus on the message-passing paradigm. In general, communication in a distributed system creates complex dependencies between events, which are hidden when using a sequential, operational semantics. The approach taken here is based on a faithful preservation of the dependencies of concurrent events. That is, an execution of a system is modeled as a partial order, or graph, rather than a sequence of events.
Cite
@article{arxiv.1904.06942,
title = {Non-Sequential Theory of Distributed Systems},
author = {Benedikt Bollig and Paul Gastin},
journal= {arXiv preprint arXiv:1904.06942},
year = {2021}
}
Comments
lecture notes, 82 pages; this version: minor revisions, extended ICPDL to EQ-ICPDL