Coplanar Full Adder in Quantum-Dot Cellular Automata via Clock-Zone-Based Crossover


We tend to use a coplanar QCA crossover architecture in the look of QCA full adders that leads to reduction of QCA cell count and area consumption while not any latency penalty. This crossover uses non-adjacent clock zones for the two crossing wires. We more investigate the impact of those gains on carry flow QCA adders. These designs are realized with QCADesigner, evaluated, and tested for correctness. For better performance comparison with previous relevant works, we have a tendency to use a QCA-specific price operate, and the conventional evaluation methodology. We have a tendency to show twenty three% cell count and forty eight% area improvements over the best previous QCA full adder style. Similar results for 4-, eight-, sixteen-, 32-, and sixty four-bit adders are 29% (22%), 24% (fifty one%), 19% (fifty four%), 13% (sixty nine%), and 9% (forty nine%) cell count reduction (less space consumption), respectively.

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PROJECT TITLE : Coplanar Full Adder in Quantum-Dot Cellular Automata via Clock-Zone Based Crossover - 2016 ABSTRACT: We use a coplanar QCA crossover design in the design of QCA full adders that results in reduction of QCA cell
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