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250 Mbyte/sec synchronous DRAM using a 3-stage-pipelined architecture

Symposium 1993 on VLSI Circuits Pub Date : 1993-05-19 DOI:10.1109/VLSIC.1993.920536
Y. Takai, M. Nagase, Mamoru Kitamura, Yasuji Koshikawa, Naoyuki Yoshida, Yasuaki Kobayashi, Takashi Obara, Y. Fukuzo, H. Watanabe
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引用次数: 35

Abstract

A 3.3 V 512 k/spl times/18/spl times/2 bank synchronous DRAM has been developed using a novel 3-stage-pipelined architecture. The address-access path which is usually designed by analog means, is digitized, separated into three stages by latch circuits at the column switch and data-out buffer. Since this architecture requires no additional read/write bus and data amp, it minimizes an increase in die size. Using the standardized GTL interface, a 250 Mbyte/sec synchronous DRAM with almost the same die-size as the conventional DRAM has been achieved.
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采用三级流水线架构的250兆字节/秒同步DRAM
3.3 V 512 k/spl倍/18/spl倍/2组同步DRAM采用新颖的3级流水线架构。通常采用模拟方式设计的地址访问路径经过数字化处理,通过列开关和数据输出缓冲器处的锁存电路将其分为三级。由于这种架构不需要额外的读/写总线和数据放大器,它最大限度地减少了芯片尺寸的增加。使用标准化的GTL接口,实现了250 Mbyte/s的同步DRAM,其芯片尺寸几乎与传统DRAM相同。
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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Symposium 1993 on VLSI Circuits
Symposium 1993 on VLSI Circuits
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