Abstract :
The ISO Reference Model for Open Distributed Processing (RM-ODP) is a software engineering enabler for the software architecture of distributed systems. It addresses the non-functional properties of distributed systems in terms of a framework of concepts, structuring rules, semantics and mechanisms. One such property is fault tolerance (FT). This paper provides a view of how RM-ODP addresses the FT framework. RM-ODP defines a model of FT and different recovery mechanisms that include recovery of an object, a group of objects, an interface, a binding, a bound interface, etc. Mechanisms for FT include a distinguished FT control object for the management of FT, replication, checkpoint/recovery, relocation, migration, and several transparencies to hide the FT mechanisms from the application developer. System-defined policies and schemata drive the FT. A brief comparison of this with the emerging proposal for a fault-tolerant version of the Common Object Request Broker Architecture (CORBA) is also provided
Keywords :
ISO standards; distributed object management; distributed processing; open systems; software architecture; software fault tolerance; system recovery; CORBA; Common Object Request Broker Architecture; ISO/ITU reference model; binding; checkpointing; concepts; control object; distributed system nonfunctional properties; failure model; fault tolerance; interfaces; mechanisms; object migration; object relocation; object replication; open distributed processing; recovery mechanisms; semantics; software architecture; software engineering; structuring rules; system-defined policies; transparency; Distributed processing; Fault detection; Fault tolerance; Fault tolerant systems; ISO; Mechanical factors; Object detection; Object oriented modeling; Software architecture; Software engineering;
