Novel Optimum Parity-Preserving Reversible Multiplier Circuits

PourAliAkbar Ehsan; Navi Keivan; Haghparast Majid; Reshadi Midia

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Novel Optimum Parity-Preserving Reversible Multiplier Circuits

机译：新颖的最佳奇偶校验可逆倍增电路

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Reversible logic is considered as a basic requirement for designing quantum computers. Reversible circuits do not waste energy. The use of this logic in low-power complementary metal-oxide-semiconductor circuits, quantum computing, and DNA computing has rendered reversible logic integral in today's technology. Multiplication is regarded as a major operation in the arithmetic. Herein, four optimized parity-preserving reversible signed and unsigned multiplier circuits are presented to reduce the QUANTUM COST of the circuits. The designs can be expanded to anN x Ndimension. We prove that these multiplier circuits have lower QUANTUM COST, CONSTANT INPUTs, and GARBAGE OUTPUTs compared with previous studies.

机译：可逆逻辑被认为是设计量子计算机的基本要求。可逆电路不会浪费能量。在低功率互补金属氧化物半导体电路，量子计算和DNA计算中使用该逻辑在当今技术中具有可逆逻辑积分。乘法被认为是算术中的主要操作。这里，提出了四种优化的奇偶校验可逆符号和无符号乘法电路以降低电路的量子成本。设计可以扩展到Ann X Ndimension。我们证明，与先前的研究相比，这些乘法电路具有较低的量子成本，恒定输入和垃圾输出。

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《Circuits, systems and signal processing 》 |2020年第10期| 5148-5168| 共21页
作者
PourAliAkbar Ehsan; Navi Keivan; Haghparast Majid; Reshadi Midia;
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作者单位

Islamic Azad Univ Dept Comp Engn Sci & Res Branch Tehran Iran;

Shahid Beheshti Univ Fac Comp Sci & Engn Tehran Iran;

Islamic Azad Univ Dept Comp Engn Yadegar E Imam Khomeini RAH Shahre Rey Branch Tehran Iran;

Islamic Azad Univ Dept Comp Engn Sci & Res Branch Tehran Iran;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Reversible logic circuit; Reversible multiplier; Unsigned multiplier; Signed multiplier; Quantum computing; Parity preserving;

机译：可逆逻辑电路;可逆乘法器;无符号乘法器;签名乘法器;量子计算;奇偶校验保存;

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专利

1. Novel parity-preserving reversible logic array multipliers [J] . Valinataj Mojtaba Journal of supercomputing . 2017 ,第11期

机译：新型奇偶校验可逆逻辑阵列乘法器
2. OPTIMAL AND ASYMPTOTICALLY OPTIMAL NCT REVERSIBLE CIRCUITS BY THE GATE TYPES [J] . Maslov Dmitri Quantum information & computation . 2016 ,第13a14期

机译：门类型的最优和渐近最优NCT可逆电路
3. Optimal circuits for parallel multipliers [J] . Stelling P.F., Martel C.U. IEEE Transactions on Computers . 1998 ,第3期

机译：并行乘法器的最佳电路
4. A Novel Approach for Reversible Realization of 4 × 4 Bit Vedic Multiplier Circuit [C] . Vandana Shukla, O. P. Singh, G. R. Mishra, International conference on VLSI, communication, and signal processing . 2020

机译：一种新的4×4位Vedic乘法电路可逆实现方法
5. Synthesis of Linear Reversible Circuits and EXOR-AND-based Circuits for Incompletely Specified Multi-Output Functions [D] . Schaeffer, Ben. 2017

机译：不完全指定的多输出功能的线性可逆电路和基于EXOR-AND的电路的综合
6. Sensory integration for reaching: models of optimality in the context of behavior and the underlying neural circuits [O] . Philip N. Sabes -1

机译：达到的感官集成：行为和底层神经电路的背景下的最优性模型
7. An analysis of reversible multiplier circuits [O] . Banerjee, Anindita, Pathak, Anirban 2009

机译：可逆乘法器电路的分析

Novel Optimum Parity-Preserving Reversible Multiplier Circuits

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