Performance of ATM switch fabric using cross-point buffers

doi:10.1016/S0140-3664(97)00066-2

Computer Communications

Volume 20, Issue 13, 25 November 1997, Pages 1146-1159

https://doi.org/10.1016/S0140-3664(97)00066-2 Get rights and content

Abstract

Multistage switches consisting of a number of stages of small switching elements (SE) are often used in ATM switch fabrics. An ATM switch fabric performs the functions of switching and buffering of cells. The location of buffers inside a fabric is critical in the performance of the switch. Output buffered SEs have a higher throughput than input buffered SEs. Moreover, output buffered SEs do not suffer from buffer hogging as found in shared buffered SEs operating in a nonuniform traffic environment. However, output-buffered SEs require internal speedup, thereby requiring high-speed buffers and complex buffer management hardware. Crosspoint buffering, however, enjoys the advantages of output buffering without requiring an internal speedup of its buffers. The objective of this paper is to study the performance of a crosspoint buffered ATM switch operating under uniform and nonuniform traffic patterns. The performance of the crosspoint buffered switch is compared with that of the output buffered switch. Analytical models based on the Markov chains are developed to facilitate the study. The results from the model are validated using simulation. It is shown that the model provides very accurate results.

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Cited by (2)

Analysis of shared buffer switches under non-uniform traffic pattern and global flow control
2000, Computer Networks
Shared buffer switches do not suffer from head of line blocking which is a common problem in simple input buffering. Shared buffer switches have previously been studied under uniform and unbalanced traffic patterns. However, due to the complexity of the model, it was not possible to fully explore the performance of such a switch, in the presence of a single hot spot. In this paper, we develop a new model for an ATM switch constructed from shared buffered switching elements, and operating under a hot spot traffic pattern. Hot spot traffic is one of more realistic traffic in ATM switching. The model is validated by comparison with simulation results. The model is used to study the switch performance in terms of throughput, cell delay, cell loss probability and the optimal buffer utilization. Numerical results show that, in the presence of hot spot traffic, shared buffer switches degrade more significantly than switches with dedicated input and/or output buffers. The model can be used by switch designers to optimize the design and performance of switches.
Delay analysis of combined input-crosspoint queueing switches
2007, Proceedings - International Conference on Computer Communications and Networks, ICCCN

^☆: A preliminary version of this paper was presented at the APCC'95: 1995 Asia-Pacific Conference on Communications, June 13–16, 1995 Osaka, Japan.

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ResearchPerformance of ATM switch fabric using cross-point buffers☆

Abstract

Journal of Parallel and Distributed Computing

Computer Networks and ISDN Systems

A survey of modern high-performance switching techniques

IEEE Journal on Selected Areas in Commun.

A broadband packet switch for integrated transport

IEEE Journal Select Areas Commun.

Input versus output queueing on a space-division packet switch

IEEE Transactions Commun.

Queueing analysis of shared buffer switches for ATM networks

Queueing analysis of buffered switching networks

IEEE Transactions on Communications

Performance of output-multibuffered multistage interconnection networks under nonuniform traffic patterns

Performance of output-multibuffered multistage interconnection networks under general traffic patterns

Research
Performance of ATM switch fabric using cross-point buffers☆