This paper presents the Optimistic Atomic Broadcast algorithm (OPT-ABcast) which exploits the spontaneous total order message reception property experienced in local area networks in order to allow fast delivery of messages. The OPT-ABcast algorithm is based on a sequence of stages, and messages can be delivered during a stage or at the end of a stage. During a stage, processes deliver messages fast. Whenever the spontaneous total order message reception property does not hold, processes terminate the current stage and start a new one by solving a Consensus problem leading to the delivery of some messages. We evaluate the efficiency of the OPT-ABcast algorithms using the notion of deliver latency
In this paper, we propose a new token-based distributed algorithm for total order atomic broadcast. ...
The performance of consensus and atomic broadcast algorithms using failure detectors is often affect...
AbstractIn distributed systems subject to random communication delays and component failures, atomic...
AbstractThis paper presents the Optimistic Atomic Broadcast algorithm (OPT-ABcast) which exploits th...
Optimistic Atomic Broadcast F.Pedone and A.Schiper This paper presents an Optimistic Atomic Broadcas...
This paper presents the Optimistic Atomic Broadcast algorithm (OPT-ABcast) which exploits the sponta...
Optimistic atomic broadcast: a pragmatic viewpoint F.Pedone and A.Schiper This paper presents the Op...
Message ordering is one of the cornerstones of reliable distributed systems. However, some ordering ...
In this paper, we study the atomic broadcast and multicast problems, two fundamental abstractions fo...
Atomic broadcast primitives are often proposed as a mechanism to allow fault-tolerant cooperation be...
Total order broadcast protocols have been successfully applied as the basis for the construction of ...
Since the introduction of the concept of failure detectors, several consensus and atomic broadcast a...
We address the problem of message-parsimonious asynchronous atomic broadcast when a subset t out of ...
Δ-Timed Atomic Broadcast is the broadcast ensuring that all correct processes deliver the same messa...
Abstract We consider a problem of atomic broadcast in a dynamic setting where processes may join, le...
In this paper, we propose a new token-based distributed algorithm for total order atomic broadcast. ...
The performance of consensus and atomic broadcast algorithms using failure detectors is often affect...
AbstractIn distributed systems subject to random communication delays and component failures, atomic...
AbstractThis paper presents the Optimistic Atomic Broadcast algorithm (OPT-ABcast) which exploits th...
Optimistic Atomic Broadcast F.Pedone and A.Schiper This paper presents an Optimistic Atomic Broadcas...
This paper presents the Optimistic Atomic Broadcast algorithm (OPT-ABcast) which exploits the sponta...
Optimistic atomic broadcast: a pragmatic viewpoint F.Pedone and A.Schiper This paper presents the Op...
Message ordering is one of the cornerstones of reliable distributed systems. However, some ordering ...
In this paper, we study the atomic broadcast and multicast problems, two fundamental abstractions fo...
Atomic broadcast primitives are often proposed as a mechanism to allow fault-tolerant cooperation be...
Total order broadcast protocols have been successfully applied as the basis for the construction of ...
Since the introduction of the concept of failure detectors, several consensus and atomic broadcast a...
We address the problem of message-parsimonious asynchronous atomic broadcast when a subset t out of ...
Δ-Timed Atomic Broadcast is the broadcast ensuring that all correct processes deliver the same messa...
Abstract We consider a problem of atomic broadcast in a dynamic setting where processes may join, le...
In this paper, we propose a new token-based distributed algorithm for total order atomic broadcast. ...
The performance of consensus and atomic broadcast algorithms using failure detectors is often affect...
AbstractIn distributed systems subject to random communication delays and component failures, atomic...