AbstractReversible computing is bi-deterministic which means that its execution is both forward and backward deterministic, i.e. next/previous computational step is uniquely determined. Various approaches exist to catch its extensional or intensional aspects and properties. We present a class RPRF of reversible functions which holds at bay intensional aspects and emphasizes the extensional side of the reversible computation by following the style of Dedekind-Robinson Primitive Recursive Functions. The class RPRF is closed by inversion, can only express bijections on integers — not only natural numbers —, and it is expressive enough to simulate Primitive Recursive Functions, of course, in an effective way
[EN] Essentially, in a reversible programming language, for each forward computation from state S to...
Essentially, in a reversible programming language, for each forward computation step from state S to...
Le concept de réversibilité est ancien, mais il soulève de nos jours beaucoup d'intérêt. Il est en e...
Reversible Primitive Permutations (RPP) are recursively defined functions designed to model Reversib...
AbstractWe prove that all and only the invertible one-variable partial recursive dunctions can be ge...
The class of primitive recursive functions is not a formal version to the class of algorithmic funct...
AbstractReversibility is a key issue in the interface between computation and physics, and of growin...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computing is one of the most intensively developing research areas nowadays. We present a...
AbstractReversible computing is a paradigm where computing models are defined so that they reflect p...
AbstractThe λ-calculus is destructive: its main computational mechanism – beta reduction – destroys ...
Reversible computing is a concept reflecting physical reversibility. Until now several reversible sy...
Reversible computing is a paradigm where computing models are defined so that they reflect physical ...
Reversible computing has a long history. Nowadays, reversible computing is attracting increasing int...
[EN] Essentially, in a reversible programming language, for each forward computation from state S to...
Essentially, in a reversible programming language, for each forward computation step from state S to...
Le concept de réversibilité est ancien, mais il soulève de nos jours beaucoup d'intérêt. Il est en e...
Reversible Primitive Permutations (RPP) are recursively defined functions designed to model Reversib...
AbstractWe prove that all and only the invertible one-variable partial recursive dunctions can be ge...
The class of primitive recursive functions is not a formal version to the class of algorithmic funct...
AbstractReversibility is a key issue in the interface between computation and physics, and of growin...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computation allows computation to proceed not only in the standard, forward direction, bu...
Reversible computing is one of the most intensively developing research areas nowadays. We present a...
AbstractReversible computing is a paradigm where computing models are defined so that they reflect p...
AbstractThe λ-calculus is destructive: its main computational mechanism – beta reduction – destroys ...
Reversible computing is a concept reflecting physical reversibility. Until now several reversible sy...
Reversible computing is a paradigm where computing models are defined so that they reflect physical ...
Reversible computing has a long history. Nowadays, reversible computing is attracting increasing int...
[EN] Essentially, in a reversible programming language, for each forward computation from state S to...
Essentially, in a reversible programming language, for each forward computation step from state S to...
Le concept de réversibilité est ancien, mais il soulève de nos jours beaucoup d'intérêt. Il est en e...