Clocking-Based Coplanar Wire Crossing Scheme for QCA
Bangalore(2010)
摘要
Quantum-dot Cellular Automata is one of the promising next-gen fabrics for circuits. Coplanar wire crossings is one of the more elegant features of this new low power computing paradigm. However, these need two types of cells and are known to be neither easy to fabricate nor very robust. In this work, we propose coplanar wire crossing using a single type of QCA cells, by applying the concept of Time Division Multiplexing to design the crossing. This has massive implications in fabrication and fault tolerance of QCA circuits.
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关键词
low power,elegant feature,circuit reliability,next-gen fabrics,logic circuits,massive implication,wire crossing,logic simulation,qca,semiconductor quantum dots,quantum-dot cellular automata,time division,clocking,time division multiplexing,quantum cellular automata,coplanar wire,low power computing,coplanar,crossover,fault tolerance,clocking based coplanar wire crossing,cellular automata,clocking-based coplanar wire crossing,qca circuit,coplanar wire crossing,new low power computing,qca cell,logic gates,fault tolerant,robustness,fabrication,quantum dot cellular automata
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