用于数据压缩的高速VLSI芯片

Proceedings Ninth Biennial University/Government/Industry Microelectronics Symposium Pub Date : 1991-06-12 DOI:10.1109/UGIM.1991.148148

N. Ranganathan, S. Henriques

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引用次数: 4

摘要

作者描述了一种实现LZ数据压缩技术的高速VLSI芯片。用于数据压缩的LZ技术包括两个基本步骤:解析和编码。基于lz的压缩方法是一种强大的技术，对文本和图像数据具有很高的压缩效率。该体系结构是收缩的，并使用流水线和并行的原则，以获得高速度和吞吐量。对于使用LZ方法压缩的数据，提出了硬件解压缩方案。数据压缩硬件可以集成到实时系统中，以便实时压缩和解压缩数据。采用CMOS 2微米技术设计和制造了一个由9个处理器组成的收缩阵列的CMOS VLSI原型芯片。所提议的硬件可以产生大约每秒2000万个字符的压缩率。

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A high speed VLSI chip for data compression

The authors describe a high-speed VLSI chip that implements the LZ technique for data compression. The LZ technique for data compression involves two basic steps, parsing and coding. The LZ-based compression method is a powerful technique and gives high compression efficiency for text and image data. The architecture is systolic and uses the principles of pipelining and parallelism in order to obtain high speed and throughput. Hardware schemes are proposed for decompressing data that has been compressed using the LZ method. The data compression hardware can be integrated into real-time systems so that data can be compressed and decompressed on-the-fly. A prototype CMOS VLSI chip has been designed and fabricated using CMOS 2-micron technology implementing a systolic array of nine processors. The proposed hardware can yield compression rates of about 20 million characters per second.<>

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Proceedings Ninth Biennial University/Government/Industry Microelectronics Symposium

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