Quantum-dot cellular automata based design for overflow detection in two's complement arithmetic operation

Jadav Chandra Das; Bikash Debnath; Debashis De

doi:10.1002/jnm.3091

Quantum-dot cellular automata based design for overflow detection in two's complement arithmetic operation

Jadav Chandra Das, Bikash Debnath, Debashis De

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

This article describes designing a low-power novel circuit for overflow detection in two's complement arithmetic operations. The quantum-dot cellular automata (QCA) is employed to achieve the nanoscale design. For designing the circuit of the proposed arithmetic overflow detector, a new layout of the QCA full adder is utilized. Two different designs of arithmetic overflow detectors are outlined in this article. The designs are compared based on latency, cell count, and device area. Based on the comparison, the best design for an arithmetic overflow detector is presented. The circuit cost for all the designs is also shown in this work. Besides, thermal power's effect on the output cell's polarization has also been investigated. The power dissipation of all proposed QCA layouts is estimated.

Original language	English
Article number	e3091
Journal	International Journal of Numerical Modelling: Electronic Networks, Devices and Fields
Volume	36
Issue number	5
DOIs	https://doi.org/10.1002/jnm.3091
Publication status	Published - 1 Sept 2023

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title = "Quantum-dot cellular automata based design for overflow detection in two's complement arithmetic operation",

abstract = "This article describes designing a low-power novel circuit for overflow detection in two's complement arithmetic operations. The quantum-dot cellular automata (QCA) is employed to achieve the nanoscale design. For designing the circuit of the proposed arithmetic overflow detector, a new layout of the QCA full adder is utilized. Two different designs of arithmetic overflow detectors are outlined in this article. The designs are compared based on latency, cell count, and device area. Based on the comparison, the best design for an arithmetic overflow detector is presented. The circuit cost for all the designs is also shown in this work. Besides, thermal power's effect on the output cell's polarization has also been investigated. The power dissipation of all proposed QCA layouts is estimated.",

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AB - This article describes designing a low-power novel circuit for overflow detection in two's complement arithmetic operations. The quantum-dot cellular automata (QCA) is employed to achieve the nanoscale design. For designing the circuit of the proposed arithmetic overflow detector, a new layout of the QCA full adder is utilized. Two different designs of arithmetic overflow detectors are outlined in this article. The designs are compared based on latency, cell count, and device area. Based on the comparison, the best design for an arithmetic overflow detector is presented. The circuit cost for all the designs is also shown in this work. Besides, thermal power's effect on the output cell's polarization has also been investigated. The power dissipation of all proposed QCA layouts is estimated.

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Quantum-dot cellular automata based design for overflow detection in two's complement arithmetic operation

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