一种新型的三操作数二进制加法器VLSI结构

Chintam KavithaShravan, Sai Krishna Marri, Rapolu Saidulu, Panchareddy Tejasvey, Sai Radha Krishan G
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摘要

直接或间接加法器是几乎所有数字电路的基本元件,三个操作数加法器是基于线性同余发生器的伪随机位发生器的基本组成部分。初级加法器是快速,面积和功率效率小的位尺寸。进位保存加法器由于其纹波进位阶段,计算加法的时间复杂度为O(n)。并行前缀加法器(如Han-Carlson)在O(log(n))时间复杂度内计算加法,但代价是额外的电路。在此基础上,提出了一种新型的高速高能效加法器结构,该结构采用四阶计算加法器,降低了加法器的功耗,使加法器延迟降至0 (n/2)。尽管它并不比高速区域高效VLSI架构的三个操作数加法器(HSAT3)快多少,但它通过使用更少的功率来计算加法。在Xilinx 14.7设计环境下使用Verilog HDL实现了该结构,结果表明,该加法器结构分别比进位加法器快2倍,比混合加法器结构快1倍、1.5倍、1.75倍,分别为32、64、128位。功耗比HSAT3低1.95倍,比Han-Carlson加法器低1.94倍,并且实现了比现有三种操作数技术最低的PDP。
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A Novel High Computing Power Efficient VLSI Architectures of Three Operand Binary Adders
Directly or indirectly adders are the basic elements in almost all digital circuits, three operand adders are the basic building blocks in LCG (Linear congruential generator) based pseudo-random bit generators. Elementary adders are fast, area and power efficient for small bit sizes. Carry save adder computes the addition in O(n) time complexity, due to its ripple carry stage. Parallel prefix adders such as Han-Carlson compute the addition in O(log(n)) time complexity but at the cost of additional circuitry. Hence new high-speed power-efficient adder architecture is proposed which uses four stages to compute the addition, which consumes less power, and the adder delay decreases to O(n/2). Even though it is not much faster than the High-speed Area efficient VLSI architecture of three operand adders (HSAT3), it computes the addition by utilizing less power. The proposed architecture is implemented using Verilog HDL in Xilinx 14.7 design environment and it is evident that this adder architecture is 2 times faster than the carry save adder and 1, 1.5, 1.75 times faster than the hybrid adder structure for 32, 64, 128 bits respectively. Also, power utilization is 1.95 times lesser than HSAT3, 1.94 times lesser than the Han-Carlson adder, and achieves the lowest PDP than the existing three operand techniques.
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