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ESOP-Inspired Synthesis Method for Ternary Permutative Quantum Circuits
By: Perkowski, M.; Dhawan, S.;
2012 / IEEE / 978-1-4673-0908-0
This item was taken from the IEEE Conference ' ESOP-Inspired Synthesis Method for Ternary Permutative Quantum Circuits ' The goal of this paper is to improve synthesis of ternary-input, ternary-output quantum per mutative circuits realized with Muthukrishnan-Stroud (M-S) gates. In , quantum ternary circuits are designed based on DSOP (Disjoint Sum of Products) cascades of General Ternary Gates (GTGs). Here, we develop an approach to synthesize quantum ternary circuits that uses non-disjoint groups. Our CAD tool, TNGM (Ternary Non-disjoint Groups Minimizer), uses a probabilistic search algorithm to select the largest groups in an incompletely specified Ternary Map and produces more compact circuits.
Esop-inspired Synthesis Method
Ternary Permutative Quantum Circuits
Disjoint Sum Of Products
General Ternary Gates
Ternary Non-disjoint Groups Minimizer
Probabilistic Search Algorithm
Algorithm Design And Analysis
Quantum Circuit Design
Multivalued Logic Circuits