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Quantum Boolean Circuit Construction Methodology Using XOR-AND Reduction Technique

Quantum Boolean Circuit Construction Methodology Using XOR-AND Reduction Technique. Omar Dajani, Prof. Harpreet Singh Department of Electrical & Computer Engineering, Wayne State University. ABSTRACT. (QCA) Structure. Systematic QCA Logic Method.

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Quantum Boolean Circuit Construction Methodology Using XOR-AND Reduction Technique

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  1. Quantum Boolean Circuit Construction Methodology Using XOR-AND Reduction Technique Omar Dajani, Prof. Harpreet Singh Department of Electrical & Computer Engineering, Wayne State University ABSTRACT (QCA) Structure Systematic QCA Logic Method • Replace each node with equivalent majority XOR and AND gates • Generates simplified XOR-AND equivalent circuit. • Quantum-dot cellular automata (QCA) has become one of most rapidly expanding nanotechnology research field and has received a lot of attention within engineering community due to its extremely small feature size and ultralow power consumption compared to COMS technology. • The process of QCA Boolean Logic construction is more sophisticated than Boolean logic. The traditional Boolean logic reduction methods produce simplified Boolean expressions. However, converting these forms to QCA Boolean is not a simple process due to the complexity of multilevel majority gates. Novel methodology for generating QCA Boolean circuits from multi-output Boolean circuits is presented in this poster. • QCA Majority Gate: produces an output of one if the majority of inputs are one. Quantum-Dot Cellular Automata (QCA) Structure QCA Design Implementation • QCA Inverter: generates an opposite logic of QCA input Cell. • Construct majority gate tree. • A basic QCA cell consists of four quantum dots in a square array coupled by tunnel barriers. • There are two energetically equivalent ground state polarizations, which can be labeled logic "0" and" 1." • XILINX and Cadence tools (Virtuoso, Encounter). • QCADesigner tool set • QCA Clocking: • Four phase clock scheme. • Every clock is 90ο out of phase from its pervious clock. • Each clock has four states: switch, hold, release, and relax. CONCLUSIONS • QCA Wire: is a line of cells. All cells have the same polarization. • QCA Cells: small size and low power consumption compare to COMS technology • Systematic QCA logic construction is presented . Our method takes Boolean function as its input, generates simplified XOR-AND equivalent circuit and output an equivalent QCA CKT.

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