VLSI architecture and implementation of statistical multiplexer

2014 Innovative Applications of Computational Intelligence on Power, Energy and Controls with their impact on Humanity (CIPECH) Pub Date : 2014-11-01 DOI:10.1109/CIPECH.2014.7019105

A. R. Goel, A. Ranjan, M. Wajid

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Abstract

In networking data rate varies from application to application and usually ratio of peak data rate is much higher than average data rate i.e. bursty data transfer. Hence, service provider/Network cannot use normal multiplexing as it requires huge bandwidth with very small utilization factor, so there is a requirement of statistical multiplexer, which is based on incoming data rate statistics and efficiently utilizes the available total bandwidth. There are many applications which use this technique like asynchronous transfer mode, UDP/TCP protocol, and digital TV transmission, digital broadcasting. Generally hardware implementation is faster than software implementation, so authors have proposed VLSI hardware architecture of statistical multiplexer and implemented on FPGA using Xilinx ISE. Various modules are simulated, synthesized and implemented on FPGA. Digital operating clock frequency is also estimated for individual sub-module and integrated main module.

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统计多路复用器的VLSI结构与实现

在网络中，数据速率因应用程序而异，通常峰值数据速率比平均数据速率高得多，即突发数据传输。因此，运营商/网络无法使用正常的复用，因为它需要巨大的带宽和很小的利用率，因此需要基于传入数据速率统计的统计复用器，并有效地利用可用的总带宽。有许多应用程序使用这种技术，如异步传输模式，UDP/TCP协议，以及数字电视传输，数字广播。一般来说，硬件实现比软件实现要快，因此作者提出了统计多路复用器的VLSI硬件架构，并使用Xilinx ISE在FPGA上实现。在FPGA上对各个模块进行了仿真、综合和实现。并对各个子模块和集成主模块的数字工作时钟频率进行了估计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 Innovative Applications of Computational Intelligence on Power, Energy and Controls with their impact on Humanity (CIPECH)

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