Using the jump number problem to efficiently detect global predicates in distributed systems

Date

2017-05

Authors

Clinton, Trokon Edward

Journal Title

Journal ISSN

Volume Title

Publisher

Abstract

Detecting global predicates of a distributed computation is a key problem in testing and debugging distributed programs. It consists of searching the global state space of events to determine whether a given predicate could have occurred. For example a programmer may be interested in verifying whether a parallel program violates a global invariant, or detect a race condition between concurrent threads. This is a challenging problem because the number of consistent global states can grow exponentially when the number of events in the computation increases. This paper presents techniques that tackle the state explosion problem and help detect whether an arbitrary predicate is true in polynomial time. We first present a brute force algorithm, and then improve the performance with an exact and heuristic algorithm inspired by the jump number problem.

Description

LCSH Subject Headings

Citation