C H Kim scite author profile

Abstract-Negative bias temperature instability (NBTI) in PMOS transistors has become a major reliability concern in present-day digital circuit design. Further, with the recent introduction of Hf-based high-k dielectrics for gate leakage reduction, positive bias temperature instability (PBTI), the dual effect in NMOS transistors, has also reached significant levels. Consequently, designs are required to build in substantial guardbands in order to guarantee reliable operation over the lifetime of a chip, and these involve large area and power overheads. In this paper, we begin by proposing the use of adaptive body bias (ABB) and adaptive supply voltage (ASV) to maintain optimal performance of an aged circuit, and demonstrate its advantages over a guardbanding technique such as synthesis. We then present a hybrid approach, utilizing the merits of both ABB and synthesis, to ensure that the resultant circuit meets the performance constraints over its lifetime, and has a minimal area and power overhead, as compared with a nominally designed circuit.

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Circuit Design and Modeling Techniques for Enhancing the Clock-Data Compensation Effect Under Resonant Supply Noise

Jiao

Kim

2010

IEEE J. Solid-State Circuits

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An Array-Based Test Circuit for Fully Automated Gate Dielectric Breakdown Characterization

Keane

Shankar

Butzen

et al. 2011

IEEE Trans. VLSI Syst.

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C H Kim

A 3T Gain Cell Embedded DRAM Utilizing Preferential Boosting for High Density and Low Power On-Die Caches

Adaptive Techniques for Overcoming Performance Degradation Due to Aging in CMOS Circuits

Circuit Design and Modeling Techniques for Enhancing the Clock-Data Compensation Effect Under Resonant Supply Noise

An Array-Based Test Circuit for Fully Automated Gate Dielectric Breakdown Characterization

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