Memory built-in self-repair and correction for improving yield: a review

Sontakke, Vijay; Atchina, Delsikreo

doi:10.11591/ijece.v14i1.pp140-156

Cited by 1 publication

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References 69 publications

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“…Several techniques are being used to add repair and correction capabilities for memories. Our previous work [2] presents a comprehensive study of the techniques.…”

Section: Introductionmentioning

confidence: 99%

Testing nanometer memories: a review of architectures, applications, and challenges

Sontakke,

Atchina

2024

IJECE

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Newer defects in memories arising from shrinking manufacturing technologies demand improved memory testing methodologies. The percentage of memories on chips continues to rise. With shrinking technologies (10 nm up to 1.8 nm), the structure of memories is becoming denser. Due to the dense structure and significant portion of a chip, the nanometer memories are highly susceptible to defects. High-frequency specifications, the complexity of internal connections, and the process variation due to newer manufacturing technology further increased the probability of the physical failure of memories to a great extent. Memories need to be defect-free for the chip to operate successfully. Therefore, testing embedded memories has become crucial and is taking significant test costs. Researchers have proposed multiple approaches considering these factors to test the nanometer memories. They include using new fault models, march algorithms, memory built-in self-test (MBIST) architectures, and validation strategies. This paper surveys the methodologies presented in recent times. It discusses the core principles used in them, along with benefits. Finally, it discusses key opens in each and offers the scope for future research.

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“…Several techniques are being used to add repair and correction capabilities for memories. Our previous work [2] presents a comprehensive study of the techniques.…”

Section: Introductionmentioning

confidence: 99%

Testing nanometer memories: a review of architectures, applications, and challenges

Sontakke,

Atchina

2024

IJECE

View full text Add to dashboard Cite

show abstract

Memory built-in self-repair and correction for improving yield: a review

Cited by 1 publication

References 69 publications

Testing nanometer memories: a review of architectures, applications, and challenges

Testing nanometer memories: a review of architectures, applications, and challenges

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