改进的展位多精度乘法器，具有可伸缩的电压和频率单元

2014 IEEE International Conference on Computational Intelligence and Computing Research Pub Date : 2014-12-01 DOI:10.1109/ICCIC.2014.7238421

B. Gowridevi, B. Gangadevi, A. V. Geethamani, T. Pavithra, S. Ravi Kumar

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引用次数: 5

摘要

乘法器被认为是滤波器等DSP应用中的重要组成部分。低功耗高速乘法器的设计具有重要的研究意义。改进的布斯多精度乘法器(MBMP)是根据输入操作数选择器的选择来选择小精度乘法器，从而降低了功耗。通过重用9位和17位乘法器分别执行16 × 16、32 × 32等更高精度的乘法，可以减少大面积开销。乘法器的设计采用改进的booth算法，将部分积的总数从N减少到N/2，从而降低了计算复杂度。动态频率缩放和电压缩放单元根据运行时工作负载提供所需的频率和供电电压。最后，我们将所提出的MBMP乘法器与传统的固定宽度乘法器进行比较，得出改进的功率性能。

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Modified booth multiprecision multiplier with scalable voltage and frequency units

Multipliers are considered to be an important component in DSP applications like filters. Designing high-speed multipliers with low power have substantial research interest. Modified Booth Multiprecision Multiplier (MBMP) reduces the power consumption by selecting the small precision multipliers in accordance with the selection of input operands selector. The large area overhead can be reduced by reusing 9 bit and 17 bit multipliers to perform a higher precision multiplication such as 16 × 16, 32 × 32 respectively. The design of multiplier is done using modified booth algorithm which reduces total number partial products from N to N/2 so that the computational complexity is reduced. The dynamic frequency scaling and voltage scaling units provide the required frequency and supply voltage based on the run time workload. Finally we can yield the improved power performance while comparing the proposed MBMP multiplier with the conventional fixed width multiplier.

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2014 IEEE International Conference on Computational Intelligence and Computing Research

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