用于数字滤波器应用的高性能可变精度乘法器和累加器单元

2021 IEEE International Conference on Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER) Pub Date : 2021-11-19 DOI:10.1109/DISCOVER52564.2021.9663665

K. Neelima, Satyam

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引用次数: 2

摘要

为了获得更好的性能，需要重新考虑诸如乘法器累加器单元之类的计算密集型设计。本文探讨了可变精度乘法器的MAC单元设计，并将此概念应用于Array、Carry Save、Booth和Vedic乘法器等乘法器。可变精度MAC单元节省了计算内存，因为部分结果使用较少的内存进行计算，因此对于n x m位的乘法，最终结果的大小为2n x m。Verilog HDL建模用于设计，Xilinx ISE 14.5与ISIM模拟器用于Zynq 7000系列FPGA (XC7Z020-1CLG484)的功能验证。其中，Vedic VPMAC FIR滤波器与其他三种设计相比，在面积和延迟方面分别至少提高23.05%和17.16%，功耗降低2.04%。与现有设计相比，其面积、延迟和功耗分别降低至少8.06%、8.58%和2%。

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High Performance Variable Precision Multiplier and Accumulator Unit for Digital Filter Applications

The computationally intensive designs such as Multiplier Accumulator Unit need to be revisited for ascertaining better performance. Design of MAC unit using Variable Precision multiplier is explored in this paper with adoption of this concept to multipliers like Array, Carry Save, Booth and Vedic Multipliers. The variable precision MAC unit saves the computation memory as the partial results are computed with less memory so that the final result has a size of 2n x m for multiplication of n x m bits. The Verilog HDL modeling is used for the designs and Xilinx ISE 14.5 with ISIM simulator are used to functionally verify for Zynq 7000 series FPGA (XC7Z020-1CLG484). Among these, Vedic VPMAC FIR Filter proved to be better for area and delay by atleast 23.05% and 17.16% respectively, with a trade-off of 2.04% in power dissipation when compared with the other three designs. Also when compared with existing designs, it uses less area, delay and power dissipation by at least 8.06%, 8.58% and 2% respectively.

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2021 IEEE International Conference on Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER)

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