Consider a fully-connected synchronous distributed system consisting of $n$ nodes, where up to $f$ nodes may be faulty and every node starts in an arbitrary initial state. In the synchronous counting problem, all nodes need to eventually agree on a counter that is increased by one modulo some $C$ in each round. In the self-stabilising firing squad problem, the task is to eventually guarantee that all non-faulty nodes have simultaneous responses to external inputs: if a subset of the correct nodes receive an external "go" signal as input, then all correct nodes should agree on a round (in the not-too-distant future) in which to jointly output a "fire" signal. Moreover, no node should generate a "fire" signal without some correct node having ...
Embedded distributed systems have become an integral part of safety-critical computing applications,...
<p>Consider a complete communication network on <em>n</em> nodes, each of which is a state machine w...
Self-stabilization is a versatile fault-tolerance approach that characterizes the ability of a syste...
Consider a fully-connected synchronous distributed system consisting of $n$ nodes, where up to $f$ n...
Consider a fully-connected synchronous distributed system consisting of n nodes, where up to f nodes...
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 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. ...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
Consider a complete communication network of n nodes, where the nodes receive a common clock pulse. ...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
When a distributed system is subject to transient failures that arbitrarily modify its state, it is ...
Consider a complete communication network on $n$ nodes, each of which is a state machine. In synchro...
Embedded distributed systems have become an integral part of safety-critical computing applications,...
<p>Consider a complete communication network on <em>n</em> nodes, each of which is a state machine w...
Self-stabilization is a versatile fault-tolerance approach that characterizes the ability of a syste...
Consider a fully-connected synchronous distributed system consisting of $n$ nodes, where up to $f$ n...
Consider a fully-connected synchronous distributed system consisting of n nodes, where up to f nodes...
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 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. ...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
Consider a complete communication network of n nodes, where the nodes receive a common clock pulse. ...
We give fault-tolerant algorithms for establishing synchrony in distributed systems in which each of...
When a distributed system is subject to transient failures that arbitrarily modify its state, it is ...
Consider a complete communication network on $n$ nodes, each of which is a state machine. In synchro...
Embedded distributed systems have become an integral part of safety-critical computing applications,...
<p>Consider a complete communication network on <em>n</em> nodes, each of which is a state machine w...
Self-stabilization is a versatile fault-tolerance approach that characterizes the ability of a syste...