An area-efficient VLSI implementation for programmable FIR filters based on a parameterized divide and conquer approach

In this paper, we propose an optimal VLSI implementation for a class of programmable FIR filters with binary coefficients, whose architecture is based on a parameterized divide and conquer approach. The proposed design is shown to be easily extendable to FIR filters with multibit coefficients of arb...

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Veröffentlicht in:	Journal of systems architecture 2008-12, Vol.54 (12), p.1122-1128
Hauptverfasser:	Poonnen, Thomas, Fam, Adly T.
Format:	Artikel
Sprache:	eng
Schlagworte:	Complementary metal oxide semiconductor Computational complexity measure Computer architecture Finite impulse response filters Parameterized divide and conquer approach Programmable switch matrix Studies Systems design Very large scale integration VLSI
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container_title	Journal of systems architecture
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creator	Poonnen, Thomas Fam, Adly T.
description	In this paper, we propose an optimal VLSI implementation for a class of programmable FIR filters with binary coefficients, whose architecture is based on a parameterized divide and conquer approach. The proposed design is shown to be easily extendable to FIR filters with multibit coefficients of arbitrary sign. The area efficiency achieved in comparison to direct form realization is demonstrated by VLSI implementation examples, synthesized in TSMC 0.18-μm single poly six metal layer CMOS process using state-of-art VLSI EDA tools. The possible saving in average power consumption is estimated using gate-level power analysis. Suggestions for applications and topics for further research conclude the paper.
doi_str_mv	10.1016/j.sysarc.2008.05.006
format	Article
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subjects	Complementary metal oxide semiconductor Computational complexity measure Computer architecture Finite impulse response filters Parameterized divide and conquer approach Programmable switch matrix Studies Systems design Very large scale integration VLSI
title	An area-efficient VLSI implementation for programmable FIR filters based on a parameterized divide and conquer approach
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