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IJSTR >> Volume 8 - Issue 8, August 2019 Edition

International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616

Design of RAM using Quantum Cellular Automata (QCA) Designer

[Full Text]



R. S. Ernest Ravindran, K Mariya Priyadarshini, Dangeti Peda Manikya Pavana Teja, Popuri Nikhil Chakravarthy, Peruboyina Dharma Teja



Quantum Dot. Cellular Automata, QCA Wire, Majority Gate, Mux, Decoder.



Quantum-dot .cell automata (QCA) development as an alternative rather than Complementary MOS advancement on the nanoscale has a promising future; QCA is a captivating development for structure memory. The proposed structure and amusement of another memory cell structure subject to QCA with a base deferral, region, and multifaceted nature is shown to execute a static arbitrary access memory (RAM). This paper demonstrates the arrangement and propagation of a RAM with another structure in QCA. Since QCA is a pipeline, this RAM has a high working pace. It has the limit of a standard high working rate RAM that can give read/make exercises as regularly as conceivable with least postponement. Decoders and multiplexers (MUXs) in QCA are shown that have been organized with a base number of larger part entryways and cells. The new RAM, decoders, and MUXs are arranged, completed, and replicated in QCA using a banner dissemination framework to avoid the coplanar issue of convergence wires. The QCA-based RAM cell was differentiated and the RAM cell reliant on CMOS. Results exhibit that the proposed RAM is progressively gainful to the extent region, difficulty, clock recurrence, and power use



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