DESIGN FOR TESTABILITY IN VLSI

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Vivek Kulkarni K S; Venna S

DESIGN FOR TESTABILITY IN VLSI

Authors: Vivek Kulkarni K S, Venna S

Unique Paper ID: 177509
Volume: 11
Issue: 12
PageNo: 874-877

Keywords: No Keywords Found

Abstract:
This paper presents a focused study on the implementation and significance of Design for Testability (DFT) techniques in VLSI systems. As chip complexity increases, incorporating DFT has become essential for enabling efficient fault detection during fabrication and in-field operation. The paper begins by outlining the foundational principles of DFT, highlighting its role in enhancing fault coverage while reducing test cost and complexity. It underscores the importance of integrating test logic early in the design phase to ensure product reliability and maintainability. The paper explores the application of key DFT methodologies such as scan chains, boundary scan, and Built-In Self-Test (BIST), emphasizing their integration into the digital design process. These techniques are modeled using Verilog HDL and evaluated using industry-standard simulation environments, demonstrating how they improve the controllability and observability of internal nodes in complex circuits. The study confirms that structured test architectures significantly enhance diagnostic capabilities with minimal impact on design overhead. The results affirm that the integration of DFT enables scalable, efficient, and cost-effective testing strategies for VLSI chips. This work contributes to the advancement of test-aware design practices and provides a practical framework for improving fault resilience in modern semiconductor systems.

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Copyright & License

Copyright © 2025 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{177509,
        author = {Vivek Kulkarni K S and Venna S},
        title = {DESIGN FOR TESTABILITY IN VLSI},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {12},
        pages = {874-877},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=177509},
        abstract = {This paper presents a focused study on the implementation and significance of Design for Testability (DFT) techniques in VLSI systems. As chip complexity increases, incorporating DFT has become essential for enabling efficient fault detection during fabrication and in-field operation. The paper begins by outlining the foundational principles of DFT, highlighting its role in enhancing fault coverage while reducing test cost and complexity. It underscores the importance of integrating test logic early in the design phase to ensure product reliability and maintainability.
The paper explores the application of key DFT methodologies such as scan chains, boundary scan, and Built-In Self-Test (BIST), emphasizing their integration into the digital design process. These techniques are modeled using Verilog HDL and evaluated using industry-standard simulation environments, demonstrating how they improve the controllability and observability of internal nodes in complex circuits. The study confirms that structured test architectures significantly enhance diagnostic capabilities with minimal impact on design overhead.
The results affirm that the integration of DFT enables scalable, efficient, and cost-effective testing strategies for VLSI chips. This work contributes to the advancement of test-aware design practices and provides a practical framework for improving fault resilience in modern semiconductor systems.},
        keywords = {},
        month = {May},
        }

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Cite This Article

ISSN: 2349-6002
Volume: 11
Issue: 12
PageNo: 874-877

DESIGN FOR TESTABILITY IN VLSI

Available:https://ijirt.org/article?manuscript=177509

Impact Factor
8.01 (Year 2024)

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