Title :
Realizing reversible circuits using a new class of quantum gates
Author :
Sasanian, Zahra ; Wille, Robert ; Miller, D. Michael
Author_Institution :
Univ. of Victoria, Victoria, BC, Canada
Abstract :
Quantum computing offers a promising alternative to conventional computation due to the theoretical capacity to solve many important problems with exponentially less complexity. Since every quantum operation is inherently reversible, the desired function is often realized in reversible logic and then mapped to quantum gates. We consider the realization of reversible circuits using a new class of quantum gates. Our method uses a mapping that grows at a very low linear rate with respect to the number of controls. Results show that, particularly for medium to large circuits, our method yields substantially smaller quantum gate counts than do prior approaches.
Keywords :
logic design; quantum gates; low linear rate; quantum computing; quantum gates; quantum operation; reversible circuits; reversible logic; theoretical capacity; Boolean functions; Educational institutions; Libraries; Logic gates; Optimization; Quantum computing; Vectors; Mapping; Optimization; Quantum Gates; Reversible Logic;
Conference_Titel :
Design Automation Conference (DAC), 2012 49th ACM/EDAC/IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4503-1199-1
