Title :
Modeling of PMOS NBTI Effect Considering Temperature Variation
Author :
Luo, Hong ; Wang, Yu ; He, Ku ; Luo, Rong ; Yang, Huazhong ; Xie, Yuan
Author_Institution :
Dept. of EE, Tsinghua Univ., Beijing
Abstract :
Negative bias temperature instability (NBTI) has come to the forefront of critical reliability phenomena in advanced CMOS technology. In this paper, we propose a fast and accurate PMOS NBTI model, in which the temperature variation and the ratio of active to standby time are considered in both stress and relaxation phases. A PMOS Vth degradation model and a digital circuits´ temporal performance degradation estimation method are developed based on our PMOS NBTI model. The simulation results show that: 1) our dynamic NBTI model without temperature variation is as accurate as previous models, the error is less than 2.3%; 2) the analysis error of PMOS Vth degradation may reach up to 52.6% without considering temperature variation; 3) for ISCAS85 benchmark circuits, the error of worst case performance degradation analysis is about on average 52.0%; 4) the ratio of active to standby time has a considerable impact during the performance degradation analysis
Keywords :
MOSFET; semiconductor device models; semiconductor device reliability; stability; CMOS technology; ISCAS85 benchmark circuits; PMOS NBTI modeling; PMOS Vth degradation model; digital circuits; negative bias temperature instability; temporal performance degradation estimation method; Analytical models; CMOS technology; Degradation; Digital circuits; Negative bias temperature instability; Niobium compounds; Performance analysis; Semiconductor device modeling; Stress; Titanium compounds;
Conference_Titel :
Quality Electronic Design, 2007. ISQED '07. 8th International Symposium on
Conference_Location :
San Jose, CA
Print_ISBN :
0-7695-2795-7
DOI :
10.1109/ISQED.2007.104
