This article presents a theoretical investigation of computation beyond the Turing barrier from emergent behavior in distributed (or parallel) systems. In particular, we present an algorithmic network that is an abstract mathematical model of a networked population of randomly generated computable systems with a fixed communication protocol. Then, in order to solve an undecidable, we study how nodes (i.e., Turing machines or computable systems) can harness the power of the metabiological selection and the power of information sharing (i.e., communication) through the network. Formally, we show that there is a pervasive network topological condition, in particular, the small-diameter phenomenon, that ensures that every node becomes capable o...
International audienceIn this paper, we provide a rigorous characterization of consensus solvability...
International audienceMore than two decades ago, combinatorial topology was shown to be useful for a...
A global semantic consensus can emerge from the self-organization of a population of distributed age...
This article presents a theoretical investigation of computation beyond the Turing barrier from emer...
This article investigates emergence and complexity in complex systems that can share information on ...
We present a theoretical investigation of the emergence of complexity or irreducible information in ...
We study information processing in populations of Boolean networks with evolving connectivity and sy...
We explore the capability of a network of extremely limited computational entities to decide propert...
What can be computed by a network of n randomized finite state machines communicating under the ston...
Consensus is one of the most fundamental problems in distributed computing. This paper studies the c...
The immediate past has witnessed an increasing amount of interest in local algorithms, i.e., constan...
In this work, we study emergent information in populations of randomly generated computable systems ...
We study emergent information in populations of randomly generated networked computable systems that...
Distributed computations in a synchronous system prone to message loss can be modeled as a game betw...
International audienceIn this paper, we provide a rigorous characterization of consensus solvability...
International audienceMore than two decades ago, combinatorial topology was shown to be useful for a...
A global semantic consensus can emerge from the self-organization of a population of distributed age...
This article presents a theoretical investigation of computation beyond the Turing barrier from emer...
This article investigates emergence and complexity in complex systems that can share information on ...
We present a theoretical investigation of the emergence of complexity or irreducible information in ...
We study information processing in populations of Boolean networks with evolving connectivity and sy...
We explore the capability of a network of extremely limited computational entities to decide propert...
What can be computed by a network of n randomized finite state machines communicating under the ston...
Consensus is one of the most fundamental problems in distributed computing. This paper studies the c...
The immediate past has witnessed an increasing amount of interest in local algorithms, i.e., constan...
In this work, we study emergent information in populations of randomly generated computable systems ...
We study emergent information in populations of randomly generated networked computable systems that...
Distributed computations in a synchronous system prone to message loss can be modeled as a game betw...
International audienceIn this paper, we provide a rigorous characterization of consensus solvability...
International audienceMore than two decades ago, combinatorial topology was shown to be useful for a...
A global semantic consensus can emerge from the self-organization of a population of distributed age...