Guillou, Lucie scite author profile

Guillou, Lucie

3Publications

2Citation Statements Received

68Citation Statements Given

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Affiliations

École Normale Supérieure de Rennes, Institut de Recherche en Informatique et Systèmes Aléatoires

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Parameterized Analysis of Reconfigurable Broadcast Networks

Balasubramanian

Lucie

Weil-Kennedy

2022

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Reconfigurable broadcast networks (RBN) are a model of distributed computation in which agents can broadcast messages to other agents using some underlying communication topology which can change arbitrarily over the course of executions. In this paper, we conduct parameterized analysis of RBN. We consider cubes, (infinite) sets of configurations in the form of lower and upper bounds on the number of agents in each state, and we show that we can evaluate boolean combinations over cubes and reachability sets of cubes in . In particular, reachability from a cube to another cube is a -complete problem.To prove the upper bound for this parameterized analysis, we prove some structural properties about the reachability sets and the symbolic graph abstraction of RBN, which might be of independent interest. We justify this claim by providing two applications of these results. First, we show that the almost-sure coverability problem is -complete for RBN, thereby closing a complexity gap from a previous paper [3]. Second, we define a computation model using RBN, à la population protocols, called RBN protocols. We characterize precisely the set of predicates that can be computed by such protocols.

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Consensus-Free Ledgers When Operations of Distinct Processes are Commutative

Frey

Lucie

Raynal

et al. 2021

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Considering asynchronous message-passing systems in which any number of processes may crash, this article addresses the construction of ledger objects where (i) the append operations issued from distinct processes commute, while (ii) the append operations issued from the same process do not. In a very interesting way, it appears that the implementation of such ledgers does not need consensus, which makes them both attractive and efficient. Their underlying formalization rests on Mazurkiewicz's traces.

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Parameterized Analysis of Reconfigurable Broadcast Networks (Long Version)

Balasubramanian¹,

Lucie²,

Weil-Kennedy³

2022

Preprint

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Reconfigurable broadcast networks (RBN) are a model of distributed computation in which agents can broadcast messages to other agents using some underlying communication topology which can change arbitrarily over the course of executions. In this paper, we conduct parameterized analysis of RBN. We consider cubes, (infinite) sets of configurations in the form of lower and upper bounds on the number of agents in each state, and we show that we can evaluate boolean combinations over cubes and reachability sets of cubes in PSPACE. In particular, reachability from a cube to another cube is a PSPACE-complete problem. To prove the upper bound for this parameterized analysis, we prove some structural properties about the reachability sets and the symbolic graph abstraction of RBN, which might be of independent interest. We justify this claim by providing two applications of these results. First, we show that the almost-sure coverability problem is PSPACE-complete for RBN, thereby closing a complexity gap from a previous paper [3]. Second, we define a computation model using RBN, à la population protocols, called RBN protocols. We characterize precisely the set of predicates that can be computed by such protocols.

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Guillou, Lucie

Parameterized Analysis of Reconfigurable Broadcast Networks

Consensus-Free Ledgers When Operations of Distinct Processes are Commutative

Parameterized Analysis of Reconfigurable Broadcast Networks (Long Version)

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