Pages that link to "Item:Q2113973"

The following pages link to Design and power analysis of an ultra-high speed fault-tolerant full-adder cell in quantum-dot cellular automata (Q2113973):

Displaying 12 items.

• Design and evaluation of a carbon nanotube-based programmable architecture (Q839022) (← links)
• Modular adder designs using optimal reversible and fault tolerant gates in field-coupled QCA nanocomputing (Q1640112) (← links)
• Toward efficient design of reversible logic gates in quantum-dot cellular automata with power dissipation analysis (Q1643493) (← links)
• A three-layer full adder/subtractor structure in quantum-dot cellular automata (Q1685721) (← links)
• Fault-tolerant design of a shift register at the nanoscale based on quantum-dot cellular automata (Q1740880) (← links)
• Modular design of ultra-efficient reversible full adder-subtractor in QCA with power dissipation analysis (Q1740919) (← links)
• A novel full adder/subtractor in quantum-dot cellular automata (Q1740964) (← links)
• Robust coplanar full adder based on novel inverter in quantum cellular automata (Q1741025) (← links)
• Robust multiplexer design and analysis using quantum dot cellular automata (Q1741033) (← links)
• A coplanar XOR using NAND-NOR-inverter and five-input majority voter in quantum-dot cellular automata technology (Q2300837) (← links)
• Fast quantum-dot cellular automata adder/subtractor using novel fault tolerant exclusive-or gate and full adder (Q2322214) (← links)
• Design and simulation of modular 2<i>n</i>to 1 quantum-dot cellular automata (QCA) multiplexers (Q3002581) (← links)