Büchi Automata as Specifications for Reactive Systems

Fogarty, Seth

05 June 2013

Computation is employed to incredible success in a massive variety of applications, and yet it is difficult to formally state what our computations are. Finding a way to model computations is not only valuable to understanding them, but central to automatic manipulations and formal verification. Often the most interesting computations are not functions with inputs and outputs, but ongoing systems that continuously react to user input. In the automata-theoretic approach, computations are modeled as words, a sequence of letters representing a trace of a computation. Each automaton accepts a set of words, called its language. To model reactive computation, we use Büchi automata: automata that operate over infinite words. Although the computations we are modeling are not infinite, they are unbounded, and we are interested in their ongoing properties. For thirty years, Büchi automata have been recognized as the right model for reactive computations. In order to formally verify computations, however, we must also be able to create specifications that embody the properties we want to prove these systems possess. To date, challenging algorithmic problems have prevented Büchi automata from being used as specifications. I address two challenges to the use of Buechi automata as specifications in formal verification. The first, complementation, is required to check program adherence to a specification. The second, determination, is used in domains such as synthesis, probabilistic verification, and module checking. I present both empirical analysis of existing complementation constructions, and a new theoretical contribution that provides more deterministic complementation and a full determination construction.

Automata

Büchi Automata

Omega Automata

Formal Verification

Büchi Automata as Specifications for Reactive Systems

Fogarty, Seth

05 June 2013

Computation is employed to incredible success in a massive variety of applications, and yet it is difficult to formally state what our computations are. Finding a way to model computations is not only valuable to understanding them, but central to automatic manipulations and formal verification. Often the most interesting computations are not functions with inputs and outputs, but ongoing systems that continuously react to user input. In the automata-theoretic approach, computations are modeled as words, a sequence of letters representing a trace of a computation. Each automaton accepts a set of words, called its language. To model reactive computation, we use Büchi automata: automata that operate over infinite words. Although the computations we are modeling are not infinite, they are unbounded, and we are interested in their ongoing properties. For thirty years, Büchi automata have been recognized as the right model for reactive computations. In order to formally verify computations, however, we must also be able to create specifications that embody the properties we want to prove these systems possess. To date, challenging algorithmic problems have prevented Büchi automata from being used as specifications. I address two challenges to the use of Buechi automata as specifications in formal verification. The first, complementation, is required to check program adherence to a specification. The second, determination, is used in domains such as synthesis, probabilistic verification, and module checking. I present both empirical analysis of existing complementation constructions, and a new theoretical contribution that provides more deterministic complementation and a full determination construction.

Automata

Büchi Automata

Omega Automata

Formal Verification

Phase transition of certain iterative cellular automation models

甄冠僑, Yan, Koon-kiu.

January 1999

published_or_final_version / Physics / Master / Master of Philosophy

Cellular automata

Analysis of the new class of cellular automata and its application in VLSI testing

Sun, Lin.

10 April 2008

No description available.

Cellular automata

Using cellular automaton models to study dissipative and diffusive systems

陳德志, Chan, Tak-chi.

January 1996

published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy

Cellular automata.

Application of cellular automata to one-dimensional density classification

Siu, Lai-wa., 蕭麗華.

January 1999

published_or_final_version / Physics / Master / Master of Philosophy

Cellular automata.

Phase transition of certain iterative cellular automation models /

Yan, Koon-kiu.

January 1999

Thesis (M. Phil.)--University of Hong Kong, 2000. / Includes bibliographical references (leaf 64).

Cellular automata.

Using cellular automaton models to study dissipative and diffusive systems /

Chan, Tak-chi.

January 1996

Thesis (M. Phil.)--University of Hong Kong, 1996. / Includes bibliographical references (leaf 60-61).

Cellular automata.

Phase transition of certain iterative cellular automation models

Yan, Koon-kiu.

January 1999

Thesis (M.Phil.)--University of Hong Kong, 2000. / Includes bibliographical references (leaves 64) Also available in print.

Cellular automata.

Generic simulation modelling of stochastic continuous systems

Albertyn, Martin.

January 2004

Thesis (Ph.D.)(Industrial and Systems Eng.)--University of Pretoria, 2004. / Includes bibliographical references.

Probabilistic automata.