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A need for low power ICs arises to keep the power density of ICs within tolerable limits. While the power dissipation increases linearly with advanced version processors, the power density also increases exponentially, because of the ever-shrinking size of the integrated circuits. Reversible logic is emerging as an important research area in the recent years due to its ability to reduce power dissipation, which is the main requirement in low power digital design.In our proposed method reversible comparator based on CMOS logic circuit is designed using reversible gates. In this design we try to…mehr

Produktbeschreibung
A need for low power ICs arises to keep the power density of ICs within tolerable limits. While the power dissipation increases linearly with advanced version processors, the power density also increases exponentially, because of the ever-shrinking size of the integrated circuits. Reversible logic is emerging as an important research area in the recent years due to its ability to reduce power dissipation, which is the main requirement in low power digital design.In our proposed method reversible comparator based on CMOS logic circuit is designed using reversible gates. In this design we try to reduce optimization parameters like number of constant inputs, garbage outputs, and quantum cost. The experimental results obtained for implementation in CADENCE EDA 180nm technology shows the considerable reduction in terms of Power Delay Product in comparison with the comparator designed in conventional.
Autorenporträt
Frau Saranya Karunamurthi arbeitet als Assistenzprofessorin in der Abteilung EEE am Dr. Mahalingam College of Engineering & Technology, Pollachi, Tamil Nadu, Indien. Sie hat ihren Master-Abschluss in Angewandter Elektronik an der Anna University gemacht. Ihre Forschungsinteressen sind VLSI-Design, analoge und digitale Schaltungen, umkehrbare Logik, ASIC-Implementierung.