Fully-pipelined efficient architectures for FPGA realization of discrete Hadamard transform

2008 International Conference on Application-Specific Systems, Architectures and Processors Pub Date : 2008-07-02 DOI:10.1109/ASAP.2008.4580152

P. Meher, J. Patra

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引用次数: 20

Abstract

Fully-pipelined simple modular structures are presented in this paper for efficient hardware realization of discrete Hadamard transform (HT). From the kernel matrix of HT, we have derived four different pipelined modular designs for transform length N = 4. It is shown further that the HT of transform-length N = 8 can be obtained from two 4-point HT modules, and similarly, the HT of transform-length N=16 can be obtained from four 4-point HT modules. Long-length transforms may, however, be computed from these short-length modules as N-point transforms can be computed from 2M number of M point HT-modules, where M = N1/2. The proposed architectures are coded in VHDL, simulated by Xilinx ISE tool for validation and testing; and synthesized thereafter to be implemented in different FPGA devices, e.g., Virtex-E, Virtex-II Pro and Virtex-4. From the synthesis result, it is found that the proposed designs involve considerably less number of slices and provide significantly higher best-achievable-frequency compared with the existing architectures for FPGA implementation of HT.

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FPGA实现离散Hadamard变换的全流水线高效架构

为了实现离散阿达玛变换的高效硬件实现，本文提出了全流水线的简单模块化结构。从HT的核矩阵中，我们得到了变换长度N = 4的四种不同的流水线模块化设计。进一步证明，变换长度N= 8的HT可以由两个4点HT模块得到，同样，变换长度N=16的HT可以由四个4点HT模块得到。然而，可以从这些短长度模块中计算长长度变换，因为可以从2M个M点ht模块中计算n点变换，其中M = N1/2。所提出的架构用VHDL编码，用赛灵思ISE工具进行仿真验证和测试;然后进行合成，在不同的FPGA器件中实现，例如Virtex-E、Virtex-II Pro和Virtex-4。从综合结果来看，与现有的FPGA实现HT架构相比，所提出的设计涉及的切片数量要少得多，并且提供了显着更高的最佳可实现频率。

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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2008 International Conference on Application-Specific Systems, Architectures and Processors

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