双正交小波变换核的VLSI快速设计

1999 IEEE Workshop on Signal Processing Systems. SiPS 99. Design and Implementation (Cat. No.99TH8461) Pub Date : 1900-01-01 DOI:10.1109/SIPS.1999.822334

S. Masud, J. McCanny

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引用次数: 5

摘要

提出了一种双正交小波变换磁芯的快速设计方法。该方法基于一个通用的、可扩展的小波滤波器架构。该体系结构通过将双正交滤波器的线性相位特性与基于MAC的抽取相结合，提供了高效的硬件利用。该设计已在VHDL中捕获，并根据小波类型、数据字长和系数字长进行参数化。控制电路嵌入在核心内，并允许它们级联，而无需任何接口胶逻辑，即可实现任何所需的分解级别。基于双正交小波系统的硅版图设计时间通常少于一天。由此产生的硅芯在面积和性能上可与手工设计相媲美。该设计可在一系列代工厂之间移植，也适用于FPGA和PLD实现。

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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Rapid VLSI design of biorthogonal wavelet transform cores

A rapid design methodology for biorthogonal wavelet transform cores has been developed. This methodology is based on a generic, scaleable architecture for the wavelet filters. The architecture offers efficient hardware utilization by combining the linear phase property of biorthogonal filters with decimation in a MAC based implementation. The design has been captured in VHDL and parameterised in terms of wavelet type, data word length and coefficient word length. The control circuit is embedded within the cores and allows them to be cascaded without any interface glue logic for any desired level of decomposition. The design time to produce silicon layout of a biorthogonal wavelet based system is typically less than a day. The resulting silicon cores produced are comparable in area and performance to hand-crafted designs. The designs are portable across a range of foundries and are also applicable to FPGA and PLD implementations.

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来源期刊

1999 IEEE Workshop on Signal Processing Systems. SiPS 99. Design and Implementation (Cat. No.99TH8461)

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