Novel March Test Algorithm Optimization Strategy for Improving Unlinked Faults Detection

Novel March Test Algorithm Optimization Strategy for Improving Unlinked Faults Detection

March-series test algorithms have proven to be popular choices for Memory BIST implementation, owing to their simplicity yet having a good fault coverage. However, March test algorithms with low test complexities are incapable to detect some unlinked static Single-Cell faults and many Double-Cell fa...

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Bibliographic Details
Published in:2021 IEEE Asia Pacific Conference on Circuit and Systems (APCCAS) pp. 117 - 120
Main Authors: Jidin, Aiman Zakwan, Hussin, Razaidi, Mispan, Mohd Syafiq, Fook, Lee Weng
Format: Conference Proceeding
Language:English
Published: IEEE 22-11-2021
Subjects:
Automation
Circuits and systems
Complexity theory
Conferences
Electrical fault detection
Fault detection
March Test Algorithm
Memory BIST
Memory Fault Detection Optimization
Memory Fault Models
Performance analysis
Random Access Memory
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Summary:March-series test algorithms have proven to be popular choices for Memory BIST implementation, owing to their simplicity yet having a good fault coverage. However, March test algorithms with low test complexities are incapable to detect some unlinked static Single-Cell faults and many Double-Cell faults. This paper presents a new optimization strategy to improve the fault coverage of the existing March algorithms by detecting the previously undetectable Single-Cell faults and Double-Cell faults. It is achieved by optimizing the test operation sequences of the existing March test algorithms through an automation program, to achieve higher fault coverage while maintaining the same test complexity as the original March algorithm. Performance analysis shows that the fault coverage of March LR and March SR algorithms can be improved from 44% to 72% and from 61% to 69%, respectively, by using the proposed optimization strategy.
DOI:10.1109/APCCAS51387.2021.9687791