Characterization of NBTI induced temporal performance degradation in nano-scale SRAM array using IDDQ
نویسندگان
چکیده
One of the major reliability concerns in nano-scale VLSI design is the time dependent Negative Bias Temperature Instability (NBTI) degradation. Due to the higher operating temperature and increasing vertical oxide field, threshold voltage (Vt) of PMOS transistors can increase with time under NBTI. In this paper, we examine the impact of NBTI degradation in memory elements of digital circuits, focusing on the conventional 6T SRAM array topology. Using an empirical NBTI model based on the reaction diffusion (RD) framework, we first examine the impact of NBTI degradation in critical performance parameters of SRAM array. These parameters include 1) static noise margin (SNM), 2) statistical READ & WRITE stability, and 3) standby leakage current (IDDQ). We show that due to NBTI, read stability of SRAM cell degrades, while write stability and standby leakage improve with time. Furthermore, using specific time trend of IDDQ degradation, we proposed efficient characterization technique to predict the lifetime behavior of SRAM array under NBTI.
منابع مشابه
Analysis of Sram Reliability under Combined Effect of Transistor Aging, Process and Temperature Variations in Nano-scale Cmos
As dimensions of MOS devices have been scaled down, new reliability problems are coming into effect. One of these emerging reliability issues is aging effects which result in device performance degradation over time. NBTI (Negative biased temperature instability) and PBTI (Positive biased temperature instability) are well known aging phenomenon which are limiting factors for future scaling of d...
متن کاملImpact Analysis of NBTI/PBTI on SRAM VMIN and Design Techniques for Improved SRAM VMIN
Negative bias temperature instability (NBTI) and positive bias temperature instability (PBTI) are critical circuit reliability issues in highly scaled CMOS technologies. In this paper, we analyze the impacts of NBTI and PBTI on SRAM VMIN, and present a design solution for mitigating the impact of NBTI and PBTI on SRAM VMIN. Two different types of SRAM VMIN (SNM-limited VMIN and time-limited VMI...
متن کاملبررسی و مدلسازی اثر ناپایداری در دمای بالا و بایاس منفی (NBTI) و تزریق حاملهای پرانرژی (HCI) در افزارههای چندگیتی نانومتری
In this paper, analytical models for NBTI induced degradation in a P-channel triple gate MOSFET and HCI induced degradation in an N-channel bulk FinFET are presented, through solving the Reaction-Diffusion equations multi-dimensionally considering geometry dependence of this framework of equations. The new models are compared to measurement data and gives excellent results. The results interpre...
متن کاملNBTI Lifetime Evaluation and Extension in Instruction Caches
CMOS devices suffer from wearout mechanisms resulting in reliability issues. Negative bias temperature instability (NBTI) is one of the dominant ageing effects that can cause threshold voltage shift on PMOS devices and subsequently impact circuit performance. The static noise margin (SNM) of an SRAM cell may be sharply reduced with unbalanced NBTI stress. This will impact SRAM read stability. F...
متن کاملImpacts of NBTI and PBTI on SRAM static/dynamic noise margins and cell failure probability
Negative and Positive Bias Temperature Instabilities (NBTI (in PFET) and PBTI (in NFET)) weaken MOSFETs with time. The impact of such device degradation can be severe in Static Random Access Memories (SRAMs) wherein stability is governed by relative strengths of FETs. Degradation in stability with time under ‘worst case condition’ gets more important because of reduced guard-banding due to proc...
متن کامل