Consider a complete communication network on n nodes, each of which is a state machine with s states. In synchronous 2-counting, the nodes receive a common clock pulse and they have to agree on which pulses are “odd” and which are “even”. We require that the solution is self-stabilising (reaching the correct operation from any initial state) and it tolerates f Byzantine failures (nodes that send arbitrary misinformation). Prior algorithms are expensive to implement in hardware: they require a source of random bits or a large number of states s. We use computational techniques to construct very compact deterministic algorithms for the first non-trivial case of f = 1. While no algorithm exists for n < 4, we show that as few as 3 states are su...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
AbstractWe consider the fundamental problem of waking up n processors sharing a multiple access chan...
This paper presents the mechanical verification of a simplified model of a rapid Byzantine-fault-tol...
Abstract. Consider a complete communication network on n nodes, each of which is a state machine wit...
Abstract. Consider a complete communication network on n nodes, each of which is a state machine wit...
<p>Consider a complete communication network on <em>n</em> nodes, each of which is a state machine w...
Consider a complete communication network of $n$ nodes, where the nodes receive a common clock pulse...
Consider a complete communication network of n nodes, in which the nodes receive a common clock puls...
Consider a complete communication network of n nodes, where the nodes receive a common clock pulse. ...
Consider a complete communication network of n nodes, where the nodes receive a common clock pulse. ...
In the synchronous $c$-counting problem, we are given a synchronous system of $n$ nodes, where up to...
Consider a fully-connected synchronous distributed system consisting of n nodes, where up to f nodes...
Consider a fully-connected synchronous distributed system consisting of $n$ nodes, where up to $f$ n...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
Full versionInternational audienceWe study the fundamental problem of distributed clock synchronizat...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
AbstractWe consider the fundamental problem of waking up n processors sharing a multiple access chan...
This paper presents the mechanical verification of a simplified model of a rapid Byzantine-fault-tol...
Abstract. Consider a complete communication network on n nodes, each of which is a state machine wit...
Abstract. Consider a complete communication network on n nodes, each of which is a state machine wit...
<p>Consider a complete communication network on <em>n</em> nodes, each of which is a state machine w...
Consider a complete communication network of $n$ nodes, where the nodes receive a common clock pulse...
Consider a complete communication network of n nodes, in which the nodes receive a common clock puls...
Consider a complete communication network of n nodes, where the nodes receive a common clock pulse. ...
Consider a complete communication network of n nodes, where the nodes receive a common clock pulse. ...
In the synchronous $c$-counting problem, we are given a synchronous system of $n$ nodes, where up to...
Consider a fully-connected synchronous distributed system consisting of n nodes, where up to f nodes...
Consider a fully-connected synchronous distributed system consisting of $n$ nodes, where up to $f$ n...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
Full versionInternational audienceWe study the fundamental problem of distributed clock synchronizat...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
AbstractWe consider the fundamental problem of waking up n processors sharing a multiple access chan...
This paper presents the mechanical verification of a simplified model of a rapid Byzantine-fault-tol...