多值算术VLSI中冗余数字表示的并行硬件算法

[1992] Proceedings The Twenty-Second International Symposium on Multiple-Valued Logic Pub Date : 1992-05-27 DOI:10.1109/ISMVL.1992.186815

S. Kawahito, Y. Mitsui, M. Ishida, Tetsuro Nakamura

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引用次数: 8

摘要

提出了基于以基数2为基数的数字集(0,1,2)的冗余数表示的高速算法。该算法适用于在具有多值逻辑电路的超大规模集成电路中实现高速紧凑算法。加法和减法可以在与操作数长度无关的常数时间内执行。使用冗余数字表示的内部n位数乘法和除法可以分别在与log/sub 2/ n和n成比例的时间内执行。由于基本的加法单元具有更简单的方案，因此与符号数算法相比，该电路具有更高的速度和更紧凑的结构。附加电池对电源电压波动具有足够的抗扰性，且功耗相对较低。

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Parallel hardware algorithms with redundant number representations for multiple-valued arithmetic VLSI

High-speed arithmetic algorithms based on redundant number representations with the digit set (0,1,2) in radix 2 are presented. The algorithms are suitable for implementing high-speed compact arithmetic in VLSI with multivalued logic circuits. Addition and subtraction can be performed in a constant time independent of the operand length. Internal n-digit multiplication and division using the redundant number representations can be performed in a time proportional to log/sub 2/ n and n, respectively. The circuits offer higher speed and greater compactness compared with the signed-digit arithmetic, since the basic addition cell has simpler scheme. The addition cell also has sufficient immunity to the supply voltage fluctuation and relatively low power dissipation.<>

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[1992] Proceedings The Twenty-Second International Symposium on Multiple-Valued Logic

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