Reconfigurable Scan Architecture for High Diagnostic Resolution

Scan chain diagnosis is essential to solving yield-reduction problem caused by the miniaturization of manufacturing process. The accurate diagnosis of scan chain faults that frequently occur in the initial process is vital for rapidly improving yield. Moreover, the importance of scan chain diagnosis...

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Bibliographic Details
Published in:IEEE access 2021, Vol.9, p.120537-120550
Main Authors: Jang, Seokjun, Kim, Jihye, Kang, Sungho
Format: Article
Language:English
Subjects:
Algorithms
Chains
Circuit faults
Circuits
Computer architecture
Cost analysis
Design for testability
Diagnostic systems
Failure analysis
Fault diagnosis
flush test
Hardware
hardware-based scan chain diagnosis
Miniaturization
multiple faults
Multiplexing
Ports (computers)
Reconfiguration
Routing
Transistors
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Summary:Scan chain diagnosis is essential to solving yield-reduction problem caused by the miniaturization of manufacturing process. The accurate diagnosis of scan chain faults that frequently occur in the initial process is vital for rapidly improving yield. Moreover, the importance of scan chain diagnosis with a high resolution for the multiple faults is increasing because multiple faults occur in the early stages of the process, further increasing the cost of physical failure analysis. Although multiple faults can be diagnosed with existing methods, a high diagnostic resolution is difficult to achieve in the early stages of the process (where many faults occur) due to the rapid increase in the number of diagnosed fault candidates as the number of actual faults in the circuit increases. In this paper, a novel reconfigurable scan architecture that reconfigures the diagnosis paths and a test algorithm that uses this scan architecture are proposed to reduce the number of diagnosed fault candidates in the scan chain diagnosis with multiple circuit faults. Experimental results indicate that the proposed method achieves the higher diagnostic resolution for multiple faults than conventional methods. In addition, the proposed method reduces the routing overhead by scan partitioning.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2021.3108429