Reactivity is an essential property of a synchronous program. Informally, it
guarantees that at each instant the program fed with an input will `react'
producing an output. In the present work, we consider a refined property that
we call ` feasible reactivity'. Beyond reactivity, this property guarantees
that at each instant both the size of the program and its reaction time are
bounded by a polynomial in the size of the parameters at the beginning of the
computation and the size of the largest input. We propose a method to annotate
programs and we develop related static analysis techniques that guarantee
feasible reactivity for programs expressed in the S-pi-calculus. The latter is
a synchronous version of the pi-calculus based on the SL synchronous
programming model

Amadio, Roberto

Dabrowski, Frederique

English

arXiv

International audienceReactivity is an essential property of a synchronous program. Informally, it guarantees that at each instant the program fed with an input will `react' producing an output. In the present work, we consider a refined property that we call ` feasible reactivity'. Beyond reactivity, this property guarantees that at each instant both the size of the program and its reaction time are bounded by a polynomial in the size of the parameters at the beginning of the computation and the size of the largest input. We propose a method to annotate programs and we develop related static analysis techniques that guarantee feasible reactivity for programs expressed in the S-pi-calculus. The latter is a synchronous version of the pi-calculus based on the SL synchronous programming model

Feasible reactivity in a synchronous pi-calculus

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