采用混合加法器的高速改进型展台乘法器的设计与实现

2017 International Conference on Computing Methodologies and Communication (ICCMC) Pub Date : 2017-07-01 DOI:10.1109/ICCMC.2017.8282661

Divya Govekar, A. Amonkar

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引用次数: 19

摘要

乘法器是当今大多数处理器设计中最理想的组件之一。乘法器的速度决定了处理器的速度。因此需要高速倍增器。本文结合改进的Booth算法、Wallace树形结构和混合加法器设计，提出了一种新的乘法算法。改进的展位乘法器减少了部分产品的数量，与其他乘法器设计相比，延迟最小。华莱士树通过部分产物的平行加法来提高速度。除部分积外，加法器也起着重要的作用。如果执行加法操作的速度增加，则乘数设计的总体速度将增加。因此，提高加法器的运算速度是本文研究的重点。在乘法器的设计中，采用了一种新颖的混合加法器设计，延时小，占用面积小。报告了所提出的乘法器设计的面积、延迟和功率复杂性。与传统的进位前瞻加法相比较，改进的Booth乘法器设计具有更好的性能，并且具有减少面积开销和关键路径延迟的优点。所提出的乘法器设计已使用Xilinx ISE 10.1设计工具进行合成，并使用ModelSim15.7g进行仿真。编程语言为Verilog HDL。

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Design and implementation of high speed modified booth multiplier using hybrid adder

Multiplier is one of the most desirable component in most of the processors designed today. The speed of multiplier determines the speed of the processor. So there is a need of high speed multiplier. In this paper, a novel method for Multiplication is proposed by combining Modified Booth algorithm, Wallace tree architecture and Hybrid adder design. Modified Booth Multiplier reduces the number of partial products and has least latency as compared to other multiplier designs. Wallace Tree increases the speed by parallel addition of partial products. Adders play an important role in addition of partial products. If the speed at which the addition operation is performed is increased than the overall speed of the multiplier design will increase. So the main focus in this paper is to increase the speed of the adder. A novel hybrid adder design is used in the multiplier design which, has less delay and occupies less area. Area, delay and power complexities of the proposed Multiplier design are reported. The proposed Modified Booth Multiplier design shows better performance compare to conventional method using Carry LookAhead Adder and has advantages of reduced area overhead and critical path delay. The proposed multiplier design has been synthesized using Xilinx ISE 10.1 design tool and simulated using ModelSim15.7g. The programming language used is Verilog HDL.

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来源期刊

2017 International Conference on Computing Methodologies and Communication (ICCMC)

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