This paper presents a new message-passing algorithm, called Do-UM, for distributed cooperative task computing in synchronous settings where processors may crash, and where any multicasts (or broadcasts) performed by crashing processors are unreliable. We specify the algorithm, prove its correctness and analyse its complexity. We show that its worst case available processor steps is S=Ît+n [Formula presented] +f(nâf) and that the number of messages sent is less than n2t+ [Formula presented], where n is the number of processors, t is the number of tasks to be executed and f is the number of failures. To assess the performance of the algorithm in practical scenarios, we perform an experimental evaluation on a planetary-scale distributed platfo...
International audienceIt is well known that consensus algorithms are fundamental building blocks for...
AbstractThe Do-All problem is about scheduling t similar and independent tasks to be performed by p ...
When the desired reliability of a computing system exceeds that of its individual hardware componen...
This paper presents a new message-passing algorithm, called Do-UM, for distributed cooperative task ...
We consider the problem of performing t tasks in a distributed system of p faultprone processors. Th...
Abstract. A fundamental problem in distributed computing is performing a set of tasks despite failur...
We consider the problem of performing t tasks in a distributed system of p faultprone processors. Th...
Abstract. The ability to cooperate on common tasks in a dis-tributed setting is key to solving a bro...
The ability to cooperatively perform a collection of tasks in a distributed setting is key to solvin...
The problem of performing t tasks in a distributed system on p failure-prone processors i one of the...
AbstractDo-All is the abstract problem of using n processors to cooperatively perform m independent ...
AbstractThis work considers the problem of performing a set of N tasks on a set of P cooperating mes...
We present a new scalable fault-tolerant algorithm which ensures total order delivery of messages se...
ABSTRACT: This work considers the problem of performing a set of N tasks on a set of P cooperating m...
Abstract. In this paper, we study the atomic multicast problem, a fundamental abstraction for buildi...
International audienceIt is well known that consensus algorithms are fundamental building blocks for...
AbstractThe Do-All problem is about scheduling t similar and independent tasks to be performed by p ...
When the desired reliability of a computing system exceeds that of its individual hardware componen...
This paper presents a new message-passing algorithm, called Do-UM, for distributed cooperative task ...
We consider the problem of performing t tasks in a distributed system of p faultprone processors. Th...
Abstract. A fundamental problem in distributed computing is performing a set of tasks despite failur...
We consider the problem of performing t tasks in a distributed system of p faultprone processors. Th...
Abstract. The ability to cooperate on common tasks in a dis-tributed setting is key to solving a bro...
The ability to cooperatively perform a collection of tasks in a distributed setting is key to solvin...
The problem of performing t tasks in a distributed system on p failure-prone processors i one of the...
AbstractDo-All is the abstract problem of using n processors to cooperatively perform m independent ...
AbstractThis work considers the problem of performing a set of N tasks on a set of P cooperating mes...
We present a new scalable fault-tolerant algorithm which ensures total order delivery of messages se...
ABSTRACT: This work considers the problem of performing a set of N tasks on a set of P cooperating m...
Abstract. In this paper, we study the atomic multicast problem, a fundamental abstraction for buildi...
International audienceIt is well known that consensus algorithms are fundamental building blocks for...
AbstractThe Do-All problem is about scheduling t similar and independent tasks to be performed by p ...
When the desired reliability of a computing system exceeds that of its individual hardware componen...