Paper Info
Title
Network Survivability Simulation of a Commercially Deployed Dynamic Routing System Protocol
Abstract
With the ever-increasing demands on server applications, many new server services are distributed in nature. We evaluated one hundred deployed systems and found that over a one-year period, thirteen percent of the hardware failures were network related. To provide end-user services, the server clusters must guarantee server-to-server communication in the presence of network failures. In prior work, we described a protocol to provide proactive dynamic routing for server clusters architectures. We now present a network survivability simulation of the Dynamic Routing System (DRS) protocol. We show that with the DRS the probability of success for server-to-server communication converges to 1 as N grows for a fixed number of failures. The DRS's proactive routing policy performs better than traditional routing systems by fixing network problems before they effect application communication.
Year
DOI
Venue
2000
10.1007/3-540-45591-4_175
IPDPS Workshops
Keywords
Field
DocType
server cluster,commercially deployed dynamic routing,proactive routing policy,server application,network survivability simulation,network problem,system protocol,server clusters architecture,proactive dynamic routing,new server service,effect application communication,network failure,dynamic routing
Hazy Sighted Link State Routing Protocol,Dynamic Source Routing,Static routing,Policy-based routing,Computer science,Enhanced Interior Gateway Routing Protocol,Wireless Routing Protocol,Routing protocol,Distributed computing,Zone Routing Protocol
Conference
Volume
ISSN
ISBN
1800
0302-9743
3-540-67442-X
Citations 
PageRank 
References 
0
0.34
11
Authors
4
Name
Order
Citations
PageRank
Abdur Chowdhury12013160.59
Ophir Frieder243346.10
Paul Luse300.34
Peng-Jun Wan43669247.28