A complete and comprehensive physics-based model for NBTI reliability simulation of analog circuits in nanometer CMOS technologies is proposed. It includes typical NBTI peculiarities such as relaxation after voltage stress reduction and dependence on time-varying voltage stress, temperature and frequency. Including both the recoverable and the permanent NBTI component, the model offers a significant accuracy improvement over existing compact models. It is therefore well suited for accurate circuit reliability analysis and failure-time prediction. Additionally, the model includes only 10 process-dependent parameters, enabling easy calibration. The model was validated on a 1.4 EOT CMOS process.status: publishe
Negative bias temperature instability (NBTI) has become the dominant reliability concern for nanosca...
International audienceAssessment of design implications due to degradation of CMOS devices is increa...
Abstract: Negative Bias Temperature Instability (NBTI) is identified as one of the most critical rel...
We investigate the NBTI degradation and recovery of pMOSFETs under continuously varying analog-circu...
We experimentally and theoretically investigate the NBTI degradation of pMOS devices due to analog s...
Abstract—Aggressive scaling to nanometer CMOS technologies causes both analog and digital circuit pa...
A compact NBTI model is presented by directly solving the reaction-diffusion (RD) equations in a sim...
We propose a circuit-level modeling approach for the threshold voltage shift in PMOS devices due to ...
This book focuses on modeling, simulation and analysis of analog circuit aging. First, all important...
A compact negative bias temperature instability (NBTI) model is presented by iteratively solving the...
This paper discusses an efficient method to analyze the spatial and temporal reliability of analog a...
Integrated analog circuit design in nanometer CMOS technologies brings forth new and significant rel...
The development of CMOS technology is a double-edged sword: for one thing, it provides faster,lowerp...
Today, micro-electronic circuits are undeniably and ubiquitously present in our society. Transportat...
ii Negative bias temperature instability (NBTI) and channel hot carrier (CHC) are important reliabil...
Negative bias temperature instability (NBTI) has become the dominant reliability concern for nanosca...
International audienceAssessment of design implications due to degradation of CMOS devices is increa...
Abstract: Negative Bias Temperature Instability (NBTI) is identified as one of the most critical rel...
We investigate the NBTI degradation and recovery of pMOSFETs under continuously varying analog-circu...
We experimentally and theoretically investigate the NBTI degradation of pMOS devices due to analog s...
Abstract—Aggressive scaling to nanometer CMOS technologies causes both analog and digital circuit pa...
A compact NBTI model is presented by directly solving the reaction-diffusion (RD) equations in a sim...
We propose a circuit-level modeling approach for the threshold voltage shift in PMOS devices due to ...
This book focuses on modeling, simulation and analysis of analog circuit aging. First, all important...
A compact negative bias temperature instability (NBTI) model is presented by iteratively solving the...
This paper discusses an efficient method to analyze the spatial and temporal reliability of analog a...
Integrated analog circuit design in nanometer CMOS technologies brings forth new and significant rel...
The development of CMOS technology is a double-edged sword: for one thing, it provides faster,lowerp...
Today, micro-electronic circuits are undeniably and ubiquitously present in our society. Transportat...
ii Negative bias temperature instability (NBTI) and channel hot carrier (CHC) are important reliabil...
Negative bias temperature instability (NBTI) has become the dominant reliability concern for nanosca...
International audienceAssessment of design implications due to degradation of CMOS devices is increa...
Abstract: Negative Bias Temperature Instability (NBTI) is identified as one of the most critical rel...