一种新型的低功耗高速混合倍增器设计

2017 Fourth International Conference on Signal Processing, Communication and Networking (ICSCN) Pub Date : 2017-03-01 DOI:10.1109/ICSCN.2017.8085724

N. Jagadeeshkumar, D. Meganathan

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引用次数: 2

摘要

本文提出了一种圆形截尾混合乘法器的设计。保证最大绝对误差小于最小位置的一个单位。该策略包括删除和减少乘法器的部分乘积位，以减少部分乘积约简过程中使用的全加法器和半加法器的数量。高速计算系统需要高速、低功耗的乘法器。在部分积约简中，采用Wallace和Dadda方法，提出了一种高性能的杂交树乘法器。部分产物分为四组。组1和组4采用达达约简，其余组采用华莱士树约简法。此外，在最后阶段，Ling加法器被纳入所提出的混合乘法器中，以减少最终的携带传播延迟。利用H-SPICE工具和32nm CMOS预测技术模型(PTM)对该设计进行了实现、仿真和评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A novel design of low power and high speed hybrid multiplier

This paper presents the design of a rounded, truncated hybrid multiplier. The maximum absolute error is ensured to be less than one unit of least position. The proposed strategy includes deletion, reduction of partial product bits of multiplier in order to reduce the number of full adders and half adders used during partial product reduction. The high speed computing system requires high-speed and low-power multipliers. This paper proposes a high performance hybrid tree multiplier by using both Wallace and Dadda methods in partial product reduction. The partial products are separated into four groups. Dadda reduction is used in group1 and group4, whereas Wallace tree reduction method is used in the remaining groups. Additionally, the Ling adder is incorporated in the proposed hybrid multiplier in the final stage, to reduce the final carry-propagation delay. The design is implemented, simulated and evaluated using H-SPICE tool with 32nm CMOS predictive technology model(PTM).

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2017 Fourth International Conference on Signal Processing, Communication and Networking (ICSCN)

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