Paper Title :2-D Finite Impulse Response Filter Design Using Hardware Description Language

Author :N.Sindhura, R.Kalyan, V.Keerthy Rai

Article Citation :N.Sindhura ,R.Kalyan ,V.Keerthy Rai , (2014 ) " 2-D Finite Impulse Response Filter Design Using Hardware Description Language " , International Journal of Advances in Science, Engineering and Technology(IJASEAT) , pp. 132-137, Volume-2,Issue-3

Abstract : We have analyzed memory footprint and combinational complexity to arrive at a systematic design strategy to derive area-delay-power-efficient architectures for two-dimensional (2-D) finite impulse response (FIR) filter. We have presented novel block based structures for separable and non-separable filters with less memory footprint by memory sharing and memory-reuse along with appropriate scheduling of computations and design of storage architecture. The proposed structures involve L times less storage per output (SPO), and nearly L times less energy consumption per output (EPO) compared with the existing structures, where L is the input block-size. We have also proposed separate generic structures for separable and non-separable filter-banks, and a unified structure of filter-bank constituting symmetric and general filters. The proposed unified structure for 6 parallel filters involves 3.6L nearly times more multipliers, 3L times more adders, (N²- N+2) less registers than similar existing unified structure, and computes times more filter outputs per cycle with times less MBW than the existing design, where is FIR filter size in each dimension. ASIC synthesis result shows that for L=4 filter size (4*4), input-block size , and image-size (512*512), proposed block-based non-separable and generic non-separable structures, respectively, and 5.81 times and 15.63 times less EPO than the corresponding existing structures. The proposed unified structure involves 4.64 times less ADP and 9.78 times less EPO than the corresponding existing structure.

Type : Research paper

Published : Volume-2,Issue-3

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