Sneak-path Testing of Memristor-based Memories

Sneak-path Testing of Memristor-based Memories

Memristors are an attractive option for use in future memory architectures due to their non-volatility, low power operation and compactness. Notwithstanding these advantages, memristors and memristor-based memories are prone to high defect densities due to the non-deterministic nature of nanoscale f...

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Bibliographische Detailangaben
Hauptverfasser: Kannan, S., Rajendran, J., Karri, R., Sinanoglu, O.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Circuit faults
Conferences
Current measurement
Defects
Density
Design engineering
emerging memory technologies
fault modeling
Integrated circuit modeling
Integrated circuits
Memory devices
memory testing
Memristors
metal-oxide memristors
Nanoscale devices
Resistance
Resistors
Testing
Very large scale integration
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Beschreibung
Zusammenfassung:Memristors are an attractive option for use in future memory architectures due to their non-volatility, low power operation and compactness. Notwithstanding these advantages, memristors and memristor-based memories are prone to high defect densities due to the non-deterministic nature of nanoscale fabrication. As a first step, we will examine the defect mechanisms in memristors and develop efficient fault models. Next, the memory subsystem has to be tested. The typical approach to testing a memory subsystem entails testing one memory element at a time. This is time consuming and does not scale for dense, memristor-based memories. We propose an efficient testing technique to test memristor-based memories. The proposed scheme uses sneak-paths inherent in crossbar memories to test multiple memristors at the same time and thereby reduces the test time by ~32%.
ISSN:1063-9667
2380-6923
DOI:10.1109/VLSID.2013.219