We study two fundamental problems of distributed computing, consensus and approximate agreement, through a novel approach for proving lower bounds and impossibility results, that we call the asynchronous speedup theorem. For a given $n$-process task $\Pi$ and a given computational model $M$, we define a new task, called the closure of $\Pi$ with respect to $M$. The asynchronous speedup theorem states that if a task $\Pi$ is solvable in $t\geq 1$ rounds in $M$, then its closure w.r.t. $M$ is solvable in $t-1$ rounds in $M$. We prove this theorem for iterated models, as long as the model allows solo executions. We illustrate the power of our asynchronous speedup theorem by providing a new proof of the wait-free impossibility of consensus usin...
AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processe...
It has long been known that the consensus problem can-not be solved deterministically in completely ...
In this paper, we offer simple and intuitive proofs to two lower bound results in distributed comput...
In a distributed application, high-availability of a critical online service is ensured despite fail...
International audienceAgreeing on a common value among a set of agents is a fundamental problem in d...
In the (N; k)-consensus task, each process in a group starts with a private input value, communicate...
It is well known that the consensus problem can be solved in a distributed system if, after some tim...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
shared coins Consensus is a decision problem in which n processors, each starting with a value not k...
Abstract: In this paper, we offer new proofs to two lower bound results in distributed computing: a ...
Abstract The famous Fischer, Lynch, and Paterson impossibility proof showsthat it is impossible to s...
International audienceWe present here a bounded memory size Obstruction-Free consensus algorithm for...
In the traditional consensus task, processes are required to agree on a common value chosen among th...
We consider the complexity of the wait-free approximate agreement problem in an asynchronous shared ...
. This paper describes the time analysis of Chandra & Toueg's asynchronous consensus, an al...
AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processe...
It has long been known that the consensus problem can-not be solved deterministically in completely ...
In this paper, we offer simple and intuitive proofs to two lower bound results in distributed comput...
In a distributed application, high-availability of a critical online service is ensured despite fail...
International audienceAgreeing on a common value among a set of agents is a fundamental problem in d...
In the (N; k)-consensus task, each process in a group starts with a private input value, communicate...
It is well known that the consensus problem can be solved in a distributed system if, after some tim...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
shared coins Consensus is a decision problem in which n processors, each starting with a value not k...
Abstract: In this paper, we offer new proofs to two lower bound results in distributed computing: a ...
Abstract The famous Fischer, Lynch, and Paterson impossibility proof showsthat it is impossible to s...
International audienceWe present here a bounded memory size Obstruction-Free consensus algorithm for...
In the traditional consensus task, processes are required to agree on a common value chosen among th...
We consider the complexity of the wait-free approximate agreement problem in an asynchronous shared ...
. This paper describes the time analysis of Chandra & Toueg's asynchronous consensus, an al...
AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processe...
It has long been known that the consensus problem can-not be solved deterministically in completely ...
In this paper, we offer simple and intuitive proofs to two lower bound results in distributed comput...