A novel approach to design a reversible shifter circuit using DNA

机译：一种使用DNA设计可逆移位电路的新颖方法

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Traditional silicon computers are believed to consume more power compared to computing systems based on Deoxyribonucleic Acid (DNA). In addition, DNA-based logic gates are stable, reusable and also outperform the non-DNA based existing shifters. In this paper, a new approach for designing DNA-based reversible shifter circuit is proposed where any kind of shifting operations can be carried out. The proposed DNA-based reversible shifter circuit is comparatively faster due to parallelism and replication properties of DNA strands. It also requires less space because of the compactness of DNA strands.

机译：与基于脱氧核糖核酸（DNA）的计算系统相比，传统的硅计算机被认为消耗更多的功率。此外，基于DNA的逻辑门稳定，可重复使用，并且性能优于基于非DNA的现有移位器。在本文中，提出了一种设计基于DNA的可逆移位电路的新方法，该方法可以进行任何类型的移位操作。由于DNA链的平行性和复制特性，提出的基于DNA的可逆移位电路相对较快。由于DNA链的紧密性，它还需要较少的空间。

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《IEEE 26th International SOC Conference》|2013年|256-261|共6页
会议地点 Erlangen(DE)
作者
Ahmed Tanvir; Sarker Ankur; Sharif Mohd.Istiaq; Rashid S.M.Mahbubur;
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Department of Computer Science and Engineering (Faculty of Engineering Technology), University of Dhaka, 1000, Bangladesh;

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正文语种 eng
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A novel approach to design a reversible shifter circuit using DNA

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