基于神经元MOS的四操作数冗余二进制并行加法器设计

2004 IEEE International Symposium on Circuits and Systems (IEEE Cat. No.04CH37512) Pub Date : 2004-05-23 DOI:10.1109/ISCAS.2004.1329391

M. Sakamoto, Shuusaku Mizukami, D. Hamano, H. Fujisaka

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引用次数: 0

摘要

介绍了一种基于神经元MOS的四操作数冗余二进制加法器。所提出的加法器可以实现完全并行的多操作数加法，因为该算法可以同时对四个输入操作数进行加法，而不需要进位传播链。该算法的原理是利用每两位数块的部分加法。该系统采用神经元mosfet实现，可以简单地实现冗余二进制数的三元运算和多输入运算。与传统的二进制加法器相比，该加法器具有运算速度快、晶体管数量少的特点。HSPICE已经进行了模拟。

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A design of 4-operand redundant binary parallel adder using neuron MOS

A novel 4-operand redundant binary adder by using neuron MOS is described. Proposed adder can achieve totally parallel multi-operand addition, because four input operands can be added simultaneously without the carry propagation chain by our novel addition algorithm. The principle of this algorithm is to utilize the partial addition in every two digits block. The neuron MOSFETs are applied to the implementation of this system, accordingly the ternary operations for the redundant binary number and the multi-input operations can be simply realized. The features of the proposed adder are capability of high speed operation and less number of transistors as compared with the conventional binary one. Simulations have been made by HSPICE.

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2004 IEEE International Symposium on Circuits and Systems (IEEE Cat. No.04CH37512)

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