Towards Coq-verified Esterel Semantics and Compiling

This paper focuses on formally specifying and verifying the chain of formal semantics of the Esterel synchronous programming language using the Coq proof assistant. In particular, in addition to the standard logical (LBS) semantics, constructive semantics (CBS) and constructive state semantics (CSS), we introduce a novel microstep semantics that gets rid of the Must/Can potential function pair of the constructive semantics and can be viewed as an abstract version of Esterel's circuit semantics used by compilers to generate software code and hardware designs. The paper also provides formal proofs in Coq of the equivalence beween the CBS and CSS semantics and of the refinement of the CSS by the microstep semantics.