Abstract — A fundamental problem of fault-tolerant distributed computing is for the reliable processes to reach a consensus. For a synchronous distributed system of n processes with up to t crash failures and f failures actually occur, we prove using a straightforward bivalency argument that the lower bound for reaching uniform consensus is (f + 2)-rounds in the case of 0 < f ≤ t − 2, and a new lower bound for early-stopping consensus is min (t + 1, f + 2)-rounds where 0 ≤ f ≤ t. Both proofs are simpler and more intuitive than the traditional methods such as backward induction. Our main contribution is that we solve the open problem of proving that bivalency can be applied to show the (f + 2)-rounds lower bound for synchronous uniform co...
International audienceWhile consensus is at the heart of many coordination problems in asynchronous ...
10.1109/ICDCSW.2007.42Proceedings - International Conference on Distributed Computing SystemsPICS
We give a simple and intuitive proof of a f + 2 round lower bound for uniform consensus
A fundamental problem of fault-tolerant distributed computing is for the reliable processes to reach...
Bivalency argument is a widely-used technique that employs forward induction to show impossibility r...
Bivalency argument is a widely-used technique that employs forward induction to show impossibility r...
In this paper, we discuss the consensus problem for synchronous distributed systems with orderly cra...
We use a straightforward bivalency argument borrowed from [FLP85] to show that in a synchronous syst...
We present a new abstraction to replace the $t$ of $n$ assumption used in designing fault-tolerant ...
We compare the consensus problem with the uniform consensus problem in synchronous systems. In contr...
In this paper, we offer simple and intuitive proofs to two lower bound results in distributed comput...
Most existing consensus protocols for synchronous distributed systems are designed to tolerate crash...
Abstract: In this paper, we offer new proofs to two lower bound results in distributed computing: a ...
2003-2004 > Academic research: refereed > Refereed conference paperVersion of RecordPublishe
Abstract Many reliable distributed systems are consensusbased and typically operate under two modes:...
International audienceWhile consensus is at the heart of many coordination problems in asynchronous ...
10.1109/ICDCSW.2007.42Proceedings - International Conference on Distributed Computing SystemsPICS
We give a simple and intuitive proof of a f + 2 round lower bound for uniform consensus
A fundamental problem of fault-tolerant distributed computing is for the reliable processes to reach...
Bivalency argument is a widely-used technique that employs forward induction to show impossibility r...
Bivalency argument is a widely-used technique that employs forward induction to show impossibility r...
In this paper, we discuss the consensus problem for synchronous distributed systems with orderly cra...
We use a straightforward bivalency argument borrowed from [FLP85] to show that in a synchronous syst...
We present a new abstraction to replace the $t$ of $n$ assumption used in designing fault-tolerant ...
We compare the consensus problem with the uniform consensus problem in synchronous systems. In contr...
In this paper, we offer simple and intuitive proofs to two lower bound results in distributed comput...
Most existing consensus protocols for synchronous distributed systems are designed to tolerate crash...
Abstract: In this paper, we offer new proofs to two lower bound results in distributed computing: a ...
2003-2004 > Academic research: refereed > Refereed conference paperVersion of RecordPublishe
Abstract Many reliable distributed systems are consensusbased and typically operate under two modes:...
International audienceWhile consensus is at the heart of many coordination problems in asynchronous ...
10.1109/ICDCSW.2007.42Proceedings - International Conference on Distributed Computing SystemsPICS
We give a simple and intuitive proof of a f + 2 round lower bound for uniform consensus