“A study on the inaccessibility characteristics of token-based standard LANs”
From Navigators
(Difference between revisions)
(NavsPubsFull5.xml import (201201141459, full reimport with new ids for legacy pubs avoiding collisions)) |
|||
Line 1: | Line 1: | ||
{{Publication | {{Publication | ||
- | |title= | + | |type=techreport |
- | + | |title=A study on the inaccessibility characteristics of token-based standard LANs | |
- | + | |author=José Rufino, Paulo Veríssimo | |
- | + | |ResearchLine=Timeliness and Adaptation in Dependable Systems (TADS) | |
- | + | |month=apr | |
- | + | |year=1992 | |
- | + | |abstract=Local area networks have long been established as the basis for distributed systems. Continuity of service and bounded and known message delivery latency are requirements of a number of applications, which are imperfectly fulfilled by standard LANs. Most previous studies have assumed only a normal LAN operation in the derivation of worst-case access/transmission delays. | |
- | + | ||
- | |author= | + | |
- | + | ||
- | | | + | |
- | + | ||
- | |abstract= | + | |
- | + | ||
However, LANs are subject to failures, namely partitions. Since most applications can live with temporary glitches, reliable real-time operation is possible on non?replicated LANs, provided that these temporary partitions are time-bounded. We call these periods of inaccessibility, to differentiate from classical partitions. | However, LANs are subject to failures, namely partitions. Since most applications can live with temporary glitches, reliable real-time operation is possible on non?replicated LANs, provided that these temporary partitions are time-bounded. We call these periods of inaccessibility, to differentiate from classical partitions. | ||
This work investigates the inaccessibility characteristics of a given set of standardised token-based local area networks, namely ISO 8802/4 Token-Bus, ISO 8802/5 Token-Ring and ISO 9314 FDDI. This study allows, for each one of the mentioned LANs, the derivation of a worst-case inaccessibility figure, to be added to the worst-case transmission delay in the absence of faults. The study is interesting on the grounds that it provides a basis to predict LAN performance in the presence of failures, and provides guidance on how to improve the inaccessibility time figures. | This work investigates the inaccessibility characteristics of a given set of standardised token-based local area networks, namely ISO 8802/4 Token-Bus, ISO 8802/5 Token-Ring and ISO 9314 FDDI. This study allows, for each one of the mentioned LANs, the derivation of a worst-case inaccessibility figure, to be added to the worst-case transmission delay in the absence of faults. The study is interesting on the grounds that it provides a basis to predict LAN performance in the presence of failures, and provides guidance on how to improve the inaccessibility time figures. | ||
- | | | + | |institution=INESC |
- | + | |number=RT-26/92 | |
- | | | + | |url=http://www.navigators.di.fc.ul.pt/archive/papers/INESC-RT-26-92.pdf |
- | + | ||
- | | | + | |
- | + | ||
- | + | ||
- | + | ||
- | + | ||
- | + | ||
}} | }} |
Latest revision as of 13:03, 15 January 2013
INESC, Tech. Rep. RT-26/92, Apr. 1992.
Abstract: Local area networks have long been established as the basis for distributed systems. Continuity of service and bounded and known message delivery latency are requirements of a number of applications, which are imperfectly fulfilled by standard LANs. Most previous studies have assumed only a normal LAN operation in the derivation of worst-case access/transmission delays. However, LANs are subject to failures, namely partitions. Since most applications can live with temporary glitches, reliable real-time operation is possible on non?replicated LANs, provided that these temporary partitions are time-bounded. We call these periods of inaccessibility, to differentiate from classical partitions. This work investigates the inaccessibility characteristics of a given set of standardised token-based local area networks, namely ISO 8802/4 Token-Bus, ISO 8802/5 Token-Ring and ISO 9314 FDDI. This study allows, for each one of the mentioned LANs, the derivation of a worst-case inaccessibility figure, to be added to the worst-case transmission delay in the absence of faults. The study is interesting on the grounds that it provides a basis to predict LAN performance in the presence of failures, and provides guidance on how to improve the inaccessibility time figures.
Download paper
Download A study on the inaccessibility characteristics of token-based standard LANs
Export citation
Project(s):
Research line(s): Timeliness and Adaptation in Dependable Systems (TADS)