Ankur Sarker scite author profile

Owing to the emergence of better characteristics such as parallelism, low power consumption and data compactness, DNA computing has drawn great attention in recent years. In this study, the authors realise an arithmetic and logic unit (ALU) using deoxyribonucleic acid (DNA). Inputs and outputs of the proposed ALU keep the logical reversibility in computation processes. The proposed ALU is capable of performing four logical (AND, OR, EX-OR and NOT) with three arithmetic (addition, subtraction and multiplication) operations. They use DNA-based multiplexer to carry out final output. Compared to silicon-based computation, the proposed ALU is faster and requires less space and power due to parallelism, replication properties, compactness and formation of DNA strands. However, compared to one existing DNA-based system, fewer signals are required in each step. Besides, another existing DNA-based ALU requires five complex biological steps to compute, whereas the proposed ALU requires three biological steps. Also, the time complexities of that existing system are O(mln₂n) for addition and subtraction operations; O(m) for logical operations and O(m(ln₂n)(2)) for multiplication operation, while the proposed system has O(1) for logical operations and O(n) for others; here n is the number of bits and m is the number of test tubes for operands.

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A novel approach to design a reversible shifter circuit using DNA

Ahmed¹,

Sarker²,

Sharif

et al. 2013

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Implementation of reversible multiplier circuit using Deoxyribonucleic acid

Sarker

Sharif

Rashid

et al. 2013

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Ankur Sarker

Realization of Reversible Logic in DNA Computing

A novel approach for constructing reversible fault tolerant n-bit binary comparator

Design of a DNA‐based reversible arithmetic and logic unit

A novel approach to design a reversible shifter circuit using DNA

Implementation of reversible multiplier circuit using Deoxyribonucleic acid

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