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XOR Design at Nanoscale with Quantum-DOT Cellular Automata


Affiliations
1 Dept. of Computer Science & Engineering, India
2 Dept. of Computer Science & Engineering, Kalyani Government Engineering College, India
 

The CMOS technology of VLSI design is fast approaching its fundamental limit. It is anticipated that further reduction in size of the devices will prompt quantum mechanical effects to come into play and thereby hinder proper functioning of the fabricated devices. In this scenario, researchers are looking for an appropriate nanotechnology for future generation ICs.
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  • XOR Design at Nanoscale with Quantum-DOT Cellular Automata

Abstract Views: 233  |  PDF Views: 120

Authors

S. Roy
Dept. of Computer Science & Engineering, India
S. Mahinder
Dept. of Computer Science & Engineering, Kalyani Government Engineering College, India
A. R. Khudabukhsh
Dept. of Computer Science & Engineering, India

Abstract


The CMOS technology of VLSI design is fast approaching its fundamental limit. It is anticipated that further reduction in size of the devices will prompt quantum mechanical effects to come into play and thereby hinder proper functioning of the fabricated devices. In this scenario, researchers are looking for an appropriate nanotechnology for future generation ICs.