Processes are distributed over processors that share directly accessible memory. Processes exchange messages via memory. Algorithms are specified which satisfy the atomic multicast requirements under two fault hypotheses: (1) fail-stop memory and fail stop processes and (2) fail-stop memory and processes with timing failures. It is shown that the algorithms can be applied under different scheduling conditions: (1) hard real-time (HRT) applications composed of periodically scheduled tasks and (2) HRT applications with tasks scheduled according to a static off-line calculated schedule. The performance measurements on an implementation of two algorithms are presented
Multicast is an important interprocessor communication pattern existing in various parallel applicat...
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...
Processes are distributed over processors that share directly accessible memory. Processes exchange ...
In this paper, we study the atomic broadcast and multicast problems, two fundamental abstractions fo...
. This paper addresses the problem of atomic multicasting messages in asynchronous systems with unr...
Atomic broadcast and atomic multicast are communication primitives which ensure that processes agree...
AbstractThis paper addresses the problem of atomic multicasting messages in asynchronous distributed...
This paper addresses the problem of atomic multicasting messages in asynchronous distributed systems...
We propose a lightweight fault-tolerant multicast and mem-bership service for real-time process grou...
This paper addresses the problem of atomic multicasting messages in asynchronous distributed systems...
Abstract. In this paper, we study the atomic multicast problem, a fundamental abstraction for buildi...
In this paper, we study atomic multicast, a fundamental abstraction for building fault-tolerant syst...
We present a new scalable fault-tolerant algorithm which ensures total order delivery of messages se...
This paper presents a new message-passing algorithm, called Do-UM, for distributed cooperative task ...
Multicast is an important interprocessor communication pattern existing in various parallel applicat...
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...
Processes are distributed over processors that share directly accessible memory. Processes exchange ...
In this paper, we study the atomic broadcast and multicast problems, two fundamental abstractions fo...
. This paper addresses the problem of atomic multicasting messages in asynchronous systems with unr...
Atomic broadcast and atomic multicast are communication primitives which ensure that processes agree...
AbstractThis paper addresses the problem of atomic multicasting messages in asynchronous distributed...
This paper addresses the problem of atomic multicasting messages in asynchronous distributed systems...
We propose a lightweight fault-tolerant multicast and mem-bership service for real-time process grou...
This paper addresses the problem of atomic multicasting messages in asynchronous distributed systems...
Abstract. In this paper, we study the atomic multicast problem, a fundamental abstraction for buildi...
In this paper, we study atomic multicast, a fundamental abstraction for building fault-tolerant syst...
We present a new scalable fault-tolerant algorithm which ensures total order delivery of messages se...
This paper presents a new message-passing algorithm, called Do-UM, for distributed cooperative task ...
Multicast is an important interprocessor communication pattern existing in various parallel applicat...
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...