使用GTLP收发器扩展PCI总线到21个插槽

Proceedings of the IEEE SoutheastCon 2000. 'Preparing for The New Millennium' (Cat. No.00CH37105) Pub Date : 2000-04-07 DOI:10.1109/SECON.2000.845586

C. Siegl, R. Klem

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引用次数: 0

摘要

各种形式的PCI(外围组件互连)总线是新设计中广泛的计算应用程序体系结构中最常实现的接口。虽然最初是作为PC市场的本地互连总线开发的(大约1994年，它成为PC刨机上高速设备互连的事实上的标准)，但该技术已被广泛采用于专有以及标准(例如CompactPCI(R)和CardBUS)实现。这些实现在支持的插槽数量上都受到限制，PC上有4个插槽，CompactPCI(R)上有8个插槽。本文演示了如何通过应用IWS(入射波交换)与GTLP (gunning transceiver logic plus)收发器和优化的背板，将CompactPCI(R)(有时缩写为cPCI)标准扩展到33 MHz的21个插槽和66 MHz的14个插槽。

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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Extension of PCI bus to 21 slots using GTLP transceiver

The PCI (peripheral component interconnect) bus in various form factors is the most frequently implemented interface for a broad class of computing application architectures in new designs. While originally developed as a local interconnect bus for the PC market (around 1994 it became the de facto standard for high speed device interconnect on PC planers), the technology has been widely adopted in both proprietary, as well as standard (CompactPCI(R) and CardBUS for example) implementations. These implementations are all limited in the number of slots supported, 4 slots in the PC and 8 slots for CompactPCI(R). This paper demonstrates how, through the application of IWS (incident wave switching) with GTLP (gunning transceiver logic plus) transceivers and an optimized backplane, the CompactPCI(R) (sometimes abbreviated to cPCI) standard can be extended to 21 slots at 33 MHz and to 14 slots at 66 MHz.

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Proceedings of the IEEE SoutheastCon 2000. 'Preparing for The New Millennium' (Cat. No.00CH37105)

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