Defect characterization and tolerance of QCA sequential devices and circuits

Defect characterization and tolerance of QCA sequential devices and circuits

This paper analyzes the defect tolerance of sequential devices and circuits implemented by molecular quantum-dot cellular automata (QCA). Initially, a novel QCA SR-type flip-flop is proposed; this flip-flop is the first sequential device for QCA and it takes into account the timing issues associated...

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Bibliographische Detailangaben
Hauptverfasser: Momenzadeh, M., Huang, J., Lombardi, F.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Circuit faults
Circuit simulation
Flip-flops
Inverters
Logic devices
Quantum cellular automata
Quantum dots
Sequential circuits
Timing
Very large scale integration
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Beschreibung
Zusammenfassung:This paper analyzes the defect tolerance of sequential devices and circuits implemented by molecular quantum-dot cellular automata (QCA). Initially, a novel QCA SR-type flip-flop is proposed; this flip-flop is the first sequential device for QCA and it takes into account the timing issues associated with the adiabatic switching of this technology. Using a defect model by which single additional and missing cells are considered in a molecular implementation, simulation results are provided for a logic-level characterization of the defects. Also for sequential circuits, defect tolerance is pursued and shown to affect the functionality of basic QCA devices, resulting mostly in unwanted inversion and stuck-at faulty behavior at logic level.
ISSN:1550-5774
2377-7966
DOI:10.1109/DFTVS.2005.26