Synthesis of Reactive(1) designs
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摘要
We address the problem of automatically synthesizing digital designs from linear-time specifications. We consider various classes of specifications that can be synthesized with effort quadratic in the number of states of the reactive system, where we measure effort in symbolic steps. The synthesis algorithm is based on a novel type of game called General Reactivity of rank 1 (gr(1)), with a winning condition of the form where each and is a Boolean combination of atomic propositions. We show symbolic algorithms to solve this game, to build a winning strategy and several ways to optimize the winning strategy and to extract a system from it. We also show how to use gr(1) games to solve the synthesis of ltl specifications in many interesting cases. As empirical evidence to the generality and efficiency of our approach we include a significant case study. We describe the formal specifications and the synthesis process applied to a bus arbiter, which is a realistic industrial hardware specification of modest size.
论文关键词:Property synthesis,Realizability,Game theory
论文评审过程:Received 21 April 2010, Revised 25 May 2011, Accepted 5 August 2011, Available online 18 August 2011.
论文官网地址:https://doi.org/10.1016/j.jcss.2011.08.007