TY  - CONF
AV  - none
CY  - Seoul
TI  - A framework to study time-dependent variability in circuits at sub-35nm technology nodes
SP  - 1568
ID  - scholars2888
KW  - Adaptive supply voltage; Atomistic devices; Back bias; Benchmark circuit; Circuit performance; CMOS circuits; Compact model; Device degradation; Device-scaling; Future generations; Future technologies; Gate length; MOS-FET; Potential impacts; Statistical variability; Sustainable solution; Technology nodes; Time-dependent
KW  -  Benchmarking; CMOS integrated circuits; Integrated circuits; MOSFET devices
KW  -  Nanotechnology
N1  - cited By 1; Conference of 2012 IEEE International Symposium on Circuits and Systems, ISCAS 2012 ; Conference Date: 20 May 2012 Through 23 May 2012; Conference Code:89943
N2  - This paper presents a framework to investigate the potential impact of time-dependent variability at future technology nodes. Both static statistical variability and NBTI-induced device degradation have been integrated to represent the time-dependent variability, and the impact on the performance of an ISCAS benchmark circuit in sub-35nm technologies has been studied. The BSIM4 compact models of MOSFET at 25, 18 and 13nm nodes are calibrated by a 3D atomistic device simulator with chip measurements of 35nm gate length devices. Synthesis results confirm that the variability of circuit performance will increase as device scaling continues, and can be more severe in new circuits at 18nm than in those stressed for a period of three years at 35nm. In addition, the results also reveal that increasing power consumption as adopted in adaptive supply voltage (ASV) and adaptive back bias (ABB) schemes is not a sustainable solution to compensate the drift in performance for future generations of CMOS circuits and systems. © 2012 IEEE.
Y1  - 2012///
EP  - 1571
A1  - Tang, T.B.
A1  - Murray, A.F.
A1  - Cheng, B.
A1  - Asenov, A.
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84866594897&doi=10.1109%2fISCAS.2012.6271551&partnerID=40&md5=1d33bf10c20d03dc2be81056eebdc4aa
ER  -