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A Novel Reversible BCD Adder For Nanotechnology Based Systems
TLDR
This paper proposes two reversible logic gates, HNFG and HNG. Expand
Design of a Novel Reversible Multiplier Circuit Using HNG Gate in Nanotechnology
Reversible logic circuits are of interests to power minimization having applications in low power CMOS design, optical information processing, DNA computing, bioinformatics, quantum computing andExpand
Novel Reversible Multiplier Circuit in Nanotechnology
Reversible computation is of the growing interests to power minimization having applications in low power CMOS design, quantum computing, optical information processing, DNA computing, bioinformaticsExpand
Optimized Reversible Multiplier Circuit
TLDR
This paper presents two new 4 × 4 bit reversible multiplier designs which have lower hardware complexity, less garbage bits, less quantum cost and less constant inputs than previous ones, and can be generalized to construct efficient reversible n × n bit multipliers. Expand
Design of energy-efficient and robust ternary circuits for nanotechnology
Novel high-performance ternary circuits for nanotechnology are presented here. Each of these carbon nanotube field-effect transistor (CNFET)-based circuits implements all the possible kinds ofExpand
A new quantum-dot cellular automata full-adder
TLDR
Physical limitations for CMOS technology have provided the way for manufacturing the quantum cellular automata technology-based hardware elements at Nano level. Expand
A novel low-power full-adder cell for low voltage
TLDR
This paper presents a novel low-power majority function-based 1-bit full adder that uses MOS capacitors (MOSCAP) in its structure. Expand
An efficient quantum-dot cellular automata full-adder
TLDR
In this paper, two high performances QCA fulladders are presented. Expand
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