Title :
A simplified availability modeling tool for networks with 1:1 redundant software-hardware systems
Author :
Hou, Wei ; Okogbaa, O. Geoffrey
Abstract :
This paper proposes a simplified availability modeling worksheet (SAMOW), a computational tool that incorporates Markov analysis and reliability block diagram methodologies to model and analyze the availability of a typical end-to-end solution consisting of multiple complex component systems, where the failure of each component system is attributed to software failures and hardware failures. The application of SAMOW to 1:1 system redundancy, which is common in the networking industry, is the focus of this study. The end-to-end availability is modeled and computed based on the corresponding signaling path and bearer path since the paths can transverse through different component systems. It is observed that SAMOW is very accurate (compared with the Markov model) when applied to 1:1 redundant systems under various system parameter sets with high switchover coverage
Keywords :
Markov processes; computer network reliability; failure analysis; redundancy; software reliability; 1:1 redundant systems; Markov analysis; bearer path; end-to-end availability; hardware failures; multiple complex component systems; networking industry; parameter sets SAMOW; redundant software-hardware systems; reliability block diagram; signaling path; simplified availability modeling worksheet tool; software failures; switchover coverage; Application software; Availability; Computer networks; Failure analysis; Fault detection; Hardware; Redundancy; Reliability; Sun; Trademarks;
Conference_Titel :
Reliability and Maintainability Symposium, 2002. Proceedings. Annual
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-7348-0
DOI :
10.1109/RAMS.2002.981702
