An Axiomatic Approach to Reversible Computation

Author:

Lanese IvanORCID,Phillips IainORCID,Ulidowski IrekORCID

Abstract

AbstractUndoing computations of a concurrent system is beneficial in many situations, e.g., in reversible debugging of multi-threaded programs and in recovery from errors due to optimistic execution in parallel discrete event simulation. A number of approaches have been proposed for how to reverse formal models of concurrent computation including process calculi such as CCS, languages like Erlang, prime event structures and occurrence nets. However it has not been settled what properties a reversible system should enjoy, nor how the various properties that have been suggested, such as the parabolic lemma and the causal-consistency property, are related. We contribute to a solution to these issues by using a generic labelled transition system equipped with a relation capturing whether transitions are independent to explore the implications between these properties. In particular, we show how they are derivable from a set of axioms. Our intention is that when establishing properties of some formalism it will be easier to verify the axioms rather than proving properties such as the parabolic lemma directly. We also introduce two new notions related to causal consistent reversibility, namely causal safety and causal liveness, and show that they are derivable from our axioms.

Publisher

Springer International Publishing

Cited by 25 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. An Axiomatic Theory for Reversible Computation;ACM Transactions on Computational Logic;2024-04-16

2. Reversible debugging of concurrent Erlang programs: Supporting imperative primitives;Journal of Logical and Algebraic Methods in Programming;2024-04

3. revTPL: The Reversible Temporal Process Language;Logical Methods in Computer Science;2024-01-31

4. The correctness of concurrencies in (reversible) concurrent calculi;Journal of Logical and Algebraic Methods in Programming;2024-01

5. Concurrent RSSA for CRIL: Flow Analysis for a Concurrent Reversible Programming Language;Lecture Notes in Computer Science;2024

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