Design of Testable Universal Logic Gate Targeting Minimum Wire-Crossings in QCA Logic Circuit
Digital System Design: Architectures, Methods and Tools(2010)
摘要
This work proposes a testable QCA (Quantum-Dot Cellular Automata) logic gate (UQCALG) realizing the universal functions. The design of UQCALG is based on the Coupled Majority Minority (CMVMIN) QCA structure with the target to reduce wire crossings as well as the number of clock cycles required to operate a QCA circuit. The characterization of defects in such design leads to synthesis of a test block, realized with the majority and minority voters, that ensures the desired testability of a circuit. The experimental designs establish that the UQCALG can result in cost effective design of testable QCA logic circuits that may not be possible with conventional ULG (Universal Logic Gate).
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关键词
experimental design,majority minority,logic gate,qca structure,targeting minimum wire-crossings,testable universal logic gate,qca logic circuit,cost effective design,testable qca,quantum-dot cellular automata,universal logic gate,testable qca logic circuit,qca circuit,clock cycle,layout,quantum dots,cellular automata,quantum dot cellular automata,logic circuits,cost effectiveness,logic gates
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