DocumentCode
2618815
Title
Conservative simulation of load-balanced routing in a large ATM network model
Author
Pham, C.D. ; Brunst, H. ; Fdida, S.
Author_Institution
Univ. Pierre et Marie Curie, Paris, France
fYear
1998
fDate
26-29 May 1998
Firstpage
142
Lastpage
149
Abstract
With the emerging of broadband networks based on ATM technology, performance evaluation tools that allow the study of large systems are desperately needed. We present our experiments in distributed simulation of large and complex ATM network models with a conservative simulator. The goal here was not to achieve the maximum speedup with well shaped topologies bat rather to see what speedup can be obtained with a realistic model on a “state of the art” parallel computer. A network model with 78 switches is simulated on a Cray T3E using 3 different traffic loads. The performance results show that good speedups can be achieved but they also highlight partitioning problems and bottlenecks in the simulation model that can seriously limit the speedup of realistic model simulations
Keywords
Cray computers; asynchronous transfer mode; broadband networks; digital simulation; distributed algorithms; parallel machines; resource allocation; telecommunication computing; telecommunication network routing; ATM technology; Cray T3E; broadband networks; complex ATM network models; conservative simulation; conservative simulator; distributed simulation; large ATM network model; load balanced routing; network model; partitioning problems; performance evaluation tools; realistic model; realistic model simulations; simulation model; state of the art parallel computer; traffic loads; Art; Asynchronous transfer mode; Broadband communication; Computational modeling; Concurrent computing; Intelligent networks; Large-scale systems; Network topology; Routing; Throughput;
fLanguage
English
Publisher
ieee
Conference_Titel
Parallel and Distributed Simulation, 1998. PADS 98. Proceedings. Twelfth Workshop on
Conference_Location
Banff, Alta.
Print_ISBN
0-8186-8457-7
Type
conf
DOI
10.1109/PADS.1998.685280
Filename
685280
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