用于高速数据压缩的并行架构

[1990 Proceedings] The Third Symposium on the Frontiers of Massively Parallel Computation Pub Date : 1990-10-08 DOI:10.1109/FMPC.1990.89465

J. Storer, J. Reif

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引用次数: 1

摘要

作者讨论了纹理替代方法。他们提出了一种基于3839个相同处理元素的收缩管道的纹理替换的大规模并行架构，该管道基本上形成了字符串的联想记忆，可以根据迄今处理的文本学习新的字符串。该体系结构设计的关键是将固有的自顶向下的串行学习策略表述为自底向上的并行策略。针对该架构的定制VLSI芯片能够以320 mb /s的速度运行，已经通过了所有模拟，并且正在使用1.2 μ m双金属技术制造

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A parallel architecture for high speed data compression

The authors discuss textural substitution methods. They present a massively parallel architecture for textural substitution that is based on a systolic pipe of 3839 identical processing elements that forms what is essentially an associative memory for strings that can learn new strings on the basis of the text processed thus far. The key to the design of this architecture is the formulation of an inherently top-down serial learning strategy as a bottom-up parallel strategy. A custom VLSI chip for this architecture that is capable of operating at 320-Mb/s has passed all simulations and is being fabricated with 1.2- mu m double-metal technology.<>

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[1990 Proceedings] The Third Symposium on the Frontiers of Massively Parallel Computation

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