GaAs VLSI实现的2.5 Gb/s ATM标签转换器

GaAs IC Symposium IEEE Gallium Arsenide Integrated Circuit Symposium. 18th Annual Technical Digest 1996 Pub Date : 1996-11-03 DOI:10.1109/GAAS.1996.567649

I. Moussa, P. Lassen

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引用次数: 1

摘要

可以使用几种方法设计通信网络的路由表，包括表查找、内容可寻址内存(CAM)、散列和尝试。本文提出了一种用于2.5 Gb/s ATM交换系统的高效表查找算法的GaAs VLSI实现。该算法呈现出一些非常有前景的特性，例如虚拟通道的数量可以达到30000个可能的连接。一个额外的三个字节的报头附加到单元报头，其中包含用于交换机内部的警务和优先级信息。路由信息通过使用传入单元中的虚拟路径标识符(VPI)和虚拟通道标识符(VCI)来访问报头转换表来执行。该VLSI芯片采用VITESSE半导体的0.6 /spl μ /m栅极GaAs mesfet制造，并封装在132引脚LDCC封装中。Label Translator芯片预计工作频率为311 MHz，相关功耗为4w。

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GaAs VLSI implementation of a 2.5 Gb/s ATM label translator

Routing tables for communication networks can be designed using several approaches, including table look-up, content-addressable Memory (CAM), hashing, and tries. This paper presents a GaAs VLSI implementation of an efficient table lookup algorithm for 2.5 Gb/s ATM switching systems. This algorithm presents some very promising features such as the number of Virtual Channels which can reach 30000 possible connections. An extra header of three bytes is attached to the cell header which contains policing and priorities information for use inside the switch. Routing information is performed by using the Virtual Path Identifier (VPI) and the Virtual Channel Identifier (VCI) in the incoming cell to access the header translation table. The VLSI chip is fabricated using 0.6 /spl mu/m gate GaAs MESFETs, by VITESSE Semiconductor and it is housed in a 132 pin LDCC package. The Label Translator chip is expected to operate at 311 MHz with an associated power dissipation of 4 W.

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来源期刊

GaAs IC Symposium IEEE Gallium Arsenide Integrated Circuit Symposium. 18th Annual Technical Digest 1996

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