用于DSP的16分路FIR滤波器的设计与实现

2018 Second International Conference on Advances in Electronics, Computers and Communications (ICAECC) Pub Date : 2018-02-01 DOI:10.1109/ICAECC.2018.8479480

N. Rai, Pannaga Shree B S, Meghana Y P, A. Chavan, RAVISH ARADHYA H V

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引用次数: 12

摘要

本文提出了两种设计高速、低功耗16分路32位数字FIR滤波器的新方法。FIR滤波器的基本组成部分是加法器、乘法器和延迟元件。在所提出的工作中，所提出的滤波器-1采用进位增量加法器和32位吠陀乘法器设计，所提出的滤波器- 2采用改进位跳加法器和32位吠陀乘法器设计。带有16-TAP的FIR滤波器架构使用Verilog HDL开发，并使用$45 \eta \ mathm {m}$技术实现。ASIC结果表明，所提-1和所提-2 16-TAP 32位滤波器的功耗分别为7.36mW和7.282mW，延迟分别为$6.79 \eta \ mathm {S}$和$7.23 \eta \ mathm {S}$。

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Design and implementation of 16 tap FIR filter for DSP Applications

In this paper, two novel methods to design a high speed, low power 16-Tap 32-bit digital FIR filter for DSP application are proposed. The basic building blocks of the FIR filters are adders, multipliers and delay elements. In the proposed work, proposed filter-1 is designed using carry increment adder and 32-bit Vedic multiplier and proposed filter2 is designed using altered carry skip adder and 32-bit Vedic multiplier. FIR filter architectures with 16-TAP is developed using Verilog HDL and implemented using $45 \eta \mathrm {m}$ technology. The ASIC result shows the proposed-1 and proposed-2 16-TAP 32-bit filter has power dissipation of 7.36mW and 7.282mW with the delay of $6.79 \eta \mathrm {S}$ and $7.23 \eta \mathrm {S}$ respectively.

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2018 Second International Conference on Advances in Electronics, Computers and Communications (ICAECC)

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