AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processes have no identifiers and run identical programs. Moreover, processes have identical interface to the shared memory, and in particular, there are no single-writer registers. This paper assumes that processes do not fail, and the shared memory consists only of read/write registers, which are initialized to some default value. A complete characterization of the functions and agreement tasks that can be solved in this model is presented. Furthermore, it is shown that if a function is computable, then two registers are sufficient for some algorithm to compute it. Consensus is an important agreement task that can be computed. The paper proves loga...
A randomized algorithm is given that solves the wait-free consensus problem for a shared-memory mode...
We study two fundamental problems of distributed computing, consensus and approximate agreement, thr...
International audienceThe paper considers the consensus problem in an n-process shared-memory distri...
AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processe...
The vast majority of papers on distributed computing assume that processes are assigned unique ident...
We study the consensus problem in a shared memory model where all processes are programmed alike, th...
International audienceWe present here a bounded memory size Obstruction-Free consensus algorithm for...
Abstract The optimal space complexity of consensus in asynchronous shared memory was ...
International audienceProcess anonymity has been studied for a long time. Memory anonymity is more r...
This paper investigates whether the assumption of unique identifiers is essential for wait-free dist...
This paper addresses the consensus problem in asynchronous systems prone to process crashes, where a...
In the (N; k)-consensus task, each process in a group starts with a private input value, communicate...
The distributed computing models typically assume every process in the system has a distinct identif...
Abstract The famous Fischer, Lynch, and Paterson impossibility proof showsthat it is impossible to s...
We study in this paper the consensus problem in asyn-chronous models where the set of participating ...
A randomized algorithm is given that solves the wait-free consensus problem for a shared-memory mode...
We study two fundamental problems of distributed computing, consensus and approximate agreement, thr...
International audienceThe paper considers the consensus problem in an n-process shared-memory distri...
AbstractIn the totally anonymous shared memory model of asynchronous distributed computing, processe...
The vast majority of papers on distributed computing assume that processes are assigned unique ident...
We study the consensus problem in a shared memory model where all processes are programmed alike, th...
International audienceWe present here a bounded memory size Obstruction-Free consensus algorithm for...
Abstract The optimal space complexity of consensus in asynchronous shared memory was ...
International audienceProcess anonymity has been studied for a long time. Memory anonymity is more r...
This paper investigates whether the assumption of unique identifiers is essential for wait-free dist...
This paper addresses the consensus problem in asynchronous systems prone to process crashes, where a...
In the (N; k)-consensus task, each process in a group starts with a private input value, communicate...
The distributed computing models typically assume every process in the system has a distinct identif...
Abstract The famous Fischer, Lynch, and Paterson impossibility proof showsthat it is impossible to s...
We study in this paper the consensus problem in asyn-chronous models where the set of participating ...
A randomized algorithm is given that solves the wait-free consensus problem for a shared-memory mode...
We study two fundamental problems of distributed computing, consensus and approximate agreement, thr...
International audienceThe paper considers the consensus problem in an n-process shared-memory distri...