We provide machine-independent characterizations of some complexity classes, over an arbitrary structure, in the model of computation proposed by L. Blum, M. Shub and S. Smale. We show that the levels of the polynomial hierarchy correspond to safe recursion with predicative minimization. The levels of the digital polynomial hierarchy correspond to safe recursion with digital predicative minimization. Also, we show that polynomial alternating time corresponds to safe recursion with predicative substitutions and that digital polynomial alternating time corresponds to safe recursion with digital predicative substitutions
By means of the definition of predicative recursion, we introduce a programming language that provid...
In this note we propose a model for unbounded nondeterministic computation which provides a very nat...
We strengthen the nondeterministic hierarchy theorem for non-deterministic polynomial time to show t...
We provide machine-independent characterizations of some complexity classes, over an arbitrary struc...
AbstractWe provide machine-independent characterizations of some complexity classes, over an arbitra...
We provide machine-independent characterizations of some complexity classes, over an arbitrary struc...
Colloque avec actes et comité de lecture. internationale.International audienceConsidering the Blum,...
AbstractConsidering the Blum, Shub, and Smale computational model for real numbers, extended by Poiz...
Rapport interne.In this paper, we provide several machine-independent characterizations of determini...
We provide several machine-independent characterizations of deterministic complexity classes in the ...
We provide several machine-independent characterizations of deterministic complexity classes in the ...
The purpose of this thesis is to give a "foundational" characterization of some common com...
Colloque avec actes et comité de lecture. internationale.International audienceIn this paper, we sho...
We focus on the BSS model of computation over arbitrary structures. We provide new completeness resu...
Our goal is to approach the classes of computational complexity P, NP, and Pspace in a recursion-the...
By means of the definition of predicative recursion, we introduce a programming language that provid...
In this note we propose a model for unbounded nondeterministic computation which provides a very nat...
We strengthen the nondeterministic hierarchy theorem for non-deterministic polynomial time to show t...
We provide machine-independent characterizations of some complexity classes, over an arbitrary struc...
AbstractWe provide machine-independent characterizations of some complexity classes, over an arbitra...
We provide machine-independent characterizations of some complexity classes, over an arbitrary struc...
Colloque avec actes et comité de lecture. internationale.International audienceConsidering the Blum,...
AbstractConsidering the Blum, Shub, and Smale computational model for real numbers, extended by Poiz...
Rapport interne.In this paper, we provide several machine-independent characterizations of determini...
We provide several machine-independent characterizations of deterministic complexity classes in the ...
We provide several machine-independent characterizations of deterministic complexity classes in the ...
The purpose of this thesis is to give a "foundational" characterization of some common com...
Colloque avec actes et comité de lecture. internationale.International audienceIn this paper, we sho...
We focus on the BSS model of computation over arbitrary structures. We provide new completeness resu...
Our goal is to approach the classes of computational complexity P, NP, and Pspace in a recursion-the...
By means of the definition of predicative recursion, we introduce a programming language that provid...
In this note we propose a model for unbounded nondeterministic computation which provides a very nat...
We strengthen the nondeterministic hierarchy theorem for non-deterministic polynomial time to show t...