Squarers in QCA nanotechnology
Nanotechnology(2012)
摘要
A novel architecture suitable for designing squaring circuits in Quantum-dot Cellular Automata (QCA) nanotechnology is explored in this manuscript. It consists of a reduced partial product array followed by a Dadda adder tree and a final carry-flow adder. A new full adder (FA) layout is also introduced that is more area efficient than the already proposed ones. The proposed squarers offer an execution delay of (2n - 1) clock zones. Layouts of the proposed squarers using multilayer design in the QCAdesigner toolset are presented and their area and delay complexities are compared against previously proposed multipliers.
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关键词
adders,cellular automata,nanoelectronics,quantum dots,quantum optics,dadda adder tree,qca designer toolset,qca nanotechnology,carry-flow adder,clock zone,delay complexity,full adder layout,multilayer design,multiplier,partial product array,quantum-dot cellular automata nanotechnology,squarer,squaring circuit
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