Evelyn Grossar scite author profile

SRAM cell read stability and write-ability are major concerns in nanometer CMOS technologies, due to the progressive increase in intra-die variability and scaling. This paper analyzes the read stability N-curve metrics and compares them with the commonly used static noise margin (SNM) metric defined by Seevinck. Additionally, new write-ability metrics derived from the same N-curve are introduced and compared with the traditional write-trip point definition. Analytical models of all these metrics are developed. It is demonstrated that the new metrics provide additional information in terms of current, which allows designing a more robust and stable cell. By taking into account this current information, scaling is no longer a limiting factor for the read stability of the cell. Finally, these metrics are used to investigate the impact of the intra-die variability on the stability of the cell by using a statistically-aware circuit optimization approach and the results are compared with the worst-case or corner-based design.

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Statistically Aware SRAM Memory Array Design

Grossar

Stucchi

Maex

et al.

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Impact of Stochastic Mismatch on Measured SRAM Performance of FinFETs with Resist/Spacer-Defined Fins: Role of Line-Edge-Roughness

Dixit

Anil

Baravelli

et al. 2006

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A yield-aware modeling methodology for nano-scaled SRAM designs

Grossar

Croon

Stucchi

et al. 2005

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Evelyn Grossar

Read Stability and Write-Ability Analysis of SRAM Cells for Nanometer Technologies

Statistically Aware SRAM Memory Array Design

Impact of Stochastic Mismatch on Measured SRAM Performance of FinFETs with Resist/Spacer-Defined Fins: Role of Line-Edge-Roughness

A yield-aware modeling methodology for nano-scaled SRAM designs

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