Ambipolar double-gate FET binary-decision- diagram (Am-BDD) for reconfigurable logic cells

Ambipolar double-gate FET binary-decision- diagram (Am-BDD) for reconfigurable logic cells

A novel Ambipolar Binary Decision Diagram (Am-BDD) is proposed in this paper, to adapt this logic synthesis and verification technique to logic built with ambipolar devices. We demonstrate how this method enables us to build DG-CNTFET-based n-input reconfigurable cells based on pass-transistor-logic...

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Bibliographische Detailangaben
Hauptverfasser: Jabeur, K., Yakymets, N., O'Connor, I., Le Beux, S.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
ambipolar double-gate devices
Applied computing > Physical sciences and engineering > Electronics
Artificial intelligence
Barium
BDD
Boolean functions
CNTFETs
Correlation
Data structures
emerging technologies
Hardware > Integrated circuits > Logic circuits
Hardware > Robustness
Manuals
MOS devices
Reconfigurable cells
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Beschreibung
Zusammenfassung:A novel Ambipolar Binary Decision Diagram (Am-BDD) is proposed in this paper, to adapt this logic synthesis and verification technique to logic built with ambipolar devices. We demonstrate how this method enables us to build DG-CNTFET-based n-input reconfigurable cells based on pass-transistor-logic obtained from Am-BDDs. We also show how specific correlations between configuration signals can lead to a minimization of their total number. Using the Am-BDD technique, we designed a reconfigurable 2-input cell capable of achieving 16 functions and demonstrating a significant reduction in power consumption (6x) with a reduced worst-case time delay when compared to a manually designed reconfigurable 2-input dynamic logic cell DRLC-7T.
ISSN:2327-8218
2327-8226
DOI:10.1109/NANOARCH.2011.5941499