PID控制器中高效乘法累加块的设计

2015 2nd International Conference on Electronics and Communication Systems (ICECS) Pub Date : 2015-06-18 DOI:10.1109/ECS.2015.7124916

V. Priya, V. Kavitha

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引用次数: 2

摘要

在许多汽车行业中，适当的闭环一直是一个亟待解决的问题。采用PID控制器控制的工业设备控制结构简单，效率高，但功耗大，数学计算速度慢。许多研究者已经尝试并正在尝试设计一种低功耗、低延迟的PID。本文回顾了阵列、布斯和华莱士树乘法器的三种MAC体系结构，它们又被纳入PID体系结构。仿真在Modelsim中完成，功率结果在Xilinx ISE中合成。结果表明，基于Wallace树的MAC单元功耗和面积更小。

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Design of efficient multiply-accumulate block for PID controllers

Proper closed loop has been an ever burning issue in many automotive industries. The industrial equipments which are governed by PID controllers have simple control structure and efficiency but still they suffer from large power consumption and slow mathematical computation. Many researchers have tried and are trying to design a low power, delay less PID. This paper reviews three MAC architectures with array, booth and wallace tree multipliers which in turn incorporated in PID architecture. The simulations are done in Modelsim and power results are synthesized using Xilinx ISE. The results suggest that Wallace tree based MAC unit consumes less power and area.

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2015 2nd International Conference on Electronics and Communication Systems (ICECS)

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