In this paper we explore the use of group communication technology, developed in the Horus project to implement a reliable and scalable distributed IN coprocessor. The proposed implementation can handle up to 20,000 calls per second with 12 computing nodes, can tolerate a single node failure or recovery, and can recover from periods of overload. Our work suggests that group communication technology can bring substantial benefits, including scalability, fault-tolerance, and real-time responsiveness to the most demanding telecommunications applications
Group communication is a programming abstraction that allows a distributed group of processes to pro...
In the last few years, the widespread of personal computers and the emergence of interconnection tec...
We describe a collection of communication primitives integrated with a mechanism for handling proce...
this paper we explore the use of group communication technology, developed in the Horus project [11,...
In recent years, the study of distributed systems has become an increasingly important focus of comp...
This paper presents a Group Communication Service suitable for standard workstations. The communicat...
This work describes the design and implementation details of a reliable group communication mechanis...
Computer systems today are increasingly complex, em-ploying vast numbers of nodes connected over lar...
An increasing number of applications with reliability requirements are being deployed in distributed...
The Horus project seeks to develop a communication system addressing the requirements of a wide vari...
Group communication is an essential building block for the development of fault-tolerant distributed...
This paper presents various aspects of reliability, availability and serviceability (RAS) systems as...
We discuss the design and high-performance implementation of collective communications operations on...
The virtual synchrony model for group communication has proven to be a powerful paradigm for buildin...
The virtual synchrony model for group communication has proven to be a powerful paradigm for buil...
Group communication is a programming abstraction that allows a distributed group of processes to pro...
In the last few years, the widespread of personal computers and the emergence of interconnection tec...
We describe a collection of communication primitives integrated with a mechanism for handling proce...
this paper we explore the use of group communication technology, developed in the Horus project [11,...
In recent years, the study of distributed systems has become an increasingly important focus of comp...
This paper presents a Group Communication Service suitable for standard workstations. The communicat...
This work describes the design and implementation details of a reliable group communication mechanis...
Computer systems today are increasingly complex, em-ploying vast numbers of nodes connected over lar...
An increasing number of applications with reliability requirements are being deployed in distributed...
The Horus project seeks to develop a communication system addressing the requirements of a wide vari...
Group communication is an essential building block for the development of fault-tolerant distributed...
This paper presents various aspects of reliability, availability and serviceability (RAS) systems as...
We discuss the design and high-performance implementation of collective communications operations on...
The virtual synchrony model for group communication has proven to be a powerful paradigm for buildin...
The virtual synchrony model for group communication has proven to be a powerful paradigm for buil...
Group communication is a programming abstraction that allows a distributed group of processes to pro...
In the last few years, the widespread of personal computers and the emergence of interconnection tec...
We describe a collection of communication primitives integrated with a mechanism for handling proce...