一种新的保持奇偶校验的可逆逻辑门设计双轨校验器

International Journal of Computer Theory and Engineering Pub Date : 2015-08-01 DOI:10.7763/IJCTE.2015.V7.977

T. Sasamal, Ashutosh Kumar Singh, A. Mohan

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引用次数: 8

摘要

可逆逻辑是未来零能耗计算系统的基础之一。它在低功耗VLSI、容错设计、量子计算、纳米技术、DN计算、光学计算、密码学和信息学等各个领域都有应用。为了保证可逆逻辑电路的可靠性，电路必须具有容错特性。本文提出了一种新的保持奇偶的可逆逻辑门。从门数和关键路径延迟两个方面，提出了一种基于奇偶保持可逆逻辑门的自检双轨检查电路的优化设计。与文献中现有的设计相比，所提出的设计实现了更少的临界延迟和门。索引条款-关键延迟，容错，奇偶校验-保留可逆门，二轨检查。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Design of Two-Rail Checker Using a New Parity Preserving Reversible Logic Gate

Reversible logic is one of the basis of future computing system that promises zero energy dissipation. It has applications in various fields such as Low power VLSI, Fault tolerant designs, quantum computing, nanotechnology, DN A computing, optical computing, cryptography and informatics. To make reversible logic circuits reliable, they must incorporate fault tolerance attribute. In this paper, we propose a new parity preserving reversible logic gate. We have proposed two optimized design of a self checking two rail checker circuit based on proposed parity preserving reversible logic gate in terms of number of gates and critical path delay. The proposed design achieves less critical delay and gates compared to the existing designs available in literature.  Index Terms—Critical delay, fault tolerant, parity- preserving reversible gates, two rail checker.

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International Journal of Computer Theory and Engineering

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