一种用于实现IV型DCT/DST的高性能收缩阵列的统一VLSI算法

International Symposium on Signals, Circuits and Systems ISSCS2013 Pub Date : 2013-07-11 DOI:10.1109/ISSCS.2013.6651185

D. Chiper, M. Ahmad, M. Swamy

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引用次数: 3

摘要

提出了一种有效的设计方法，推导出一种统一的高性能缩表阵列结构，用于素长度IV型DCT和DST。该方法基于统一的VLSI算法，该算法使用IV型DCT和DST的并行重构。它采用平行伪圆相关结构作为基本计算形式。大多数统一算法可以在相同的硬件结构上实现，从而使两个转换使用的芯片面积百分比非常高。该统一算法可以映射到I/O通道数量少、I/O带宽低的线性收缩阵列上，可以高效地实现在VLSI芯片上。

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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A unified VLSI algorithm for a high performance systolic array implementation of type IV DCT/DST

An efficient design approach to derive a unified high performance systolic array architecture for prime length type IV DCT and DST is proposed. This approach is based on a unified VLSI algorithm that uses a parallel restructuring of type IV DCT and DST. It uses parallel pseudo-circular correlation structures as basic computational forms. Most of the unified algorithm can be implemented on the same hardware structure leading to a VLSI chip with a very high percentage of the chip area being used by both the transforms. The unified algorithm can be mapped onto a linear systolic array that have a small number of I/O channels and low I/O bandwidth, which can be efficiently implemented into a VLSI chip.

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International Symposium on Signals, Circuits and Systems ISSCS2013

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