FPGA Implementation of a High-Speed Two Dimensional Discrete Wavelet Transform
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Published:2013-12
Issue:
Volume:479-480
Page:508-512
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ISSN:1662-7482
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Container-title:Applied Mechanics and Materials
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language:
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Short-container-title:AMM
Author:
Hsieh Chin Fa1, Tsai Tsung Han1
Affiliation:
1. National Central University
Abstract
This paper proposes high-speed VLSI architecture for implementing a forward two-dimensional discrete wavelet transform (2D DWT). The architecture is based on 2D DWT mathematical formulae. A pipelined scheme is used to increase the clock rate, which allows its critical path to take only one adder delay. The proposed design enables 100% hardware use and faster computing than other 2D DWT architecture. It is easily extended to multilevel decomposition because of its regular structure. It requires N/2 by N/2 clock cycles for k-level analysis of an N by N image. The proposed architecture was coded in VerilogHDL and verified on a real time platform which uses a CMOS image sensor, a field-programmable gate array (FPGA) and a TFT-LCD panel. In the simulation, the design worked with a clock period of 132.38MHz. It can be used as an independent IP core for various real-time applications.
Publisher
Trans Tech Publications, Ltd.
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