Fault analysis of 3to 8 decoder implemented using quantum dot cellular automata for state configuration

ISSN: 22773878
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Abstract

As the Complementary Metal oxide Semiconductor Field effect transistor has reached its limits of further increase in the device density as Per Moore’s law, there are alternate technologies like the Carbon Nano tube Field effect Transistor, Quantum Computing gates, Spintronics, Quantum Dot Cellular Automata(QCA), of which QCA has the advantages of high device density, improvised latency and less power consumption. Hence there is need for design of QCA circuits as well as testing of such circuits for various defects. In this research we have focused on the Fault analysis of a 3 to 8 Decoder constructed using Five input Majority Voter with Coplanar Wire crossing. The Frame work provided is to detect the fault occurring at the QCA configurations and fault injection is performed to estimate the error rate in QCA Circuits.

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APA

Jayalakshmi, R., & Senthil Kumaran, M. (2019). Fault analysis of 3to 8 decoder implemented using quantum dot cellular automata for state configuration. International Journal of Recent Technology and Engineering, 8(1), 1766–1769.

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