TY - JOUR
T1 - Evaluation of the Impact of Technology Scaling on Delay Testing for Low-Cost AVS
AU - Zandrahimi, Mahroo
AU - Debaud, Philippe
AU - Castillejo, Armand
AU - Al-Ars, Zaid
PY - 2019
Y1 - 2019
N2 - With the continued down-scaling of IC technology and increase in manufacturing process variations, it is becoming ever more difficult to accurately estimate circuit performance of manufactured devices. This poses significant challenges on the effective application of adaptive voltage scaling (AVS) which is widely used as the most important power optimization method in modern devices. Process variations specifically limit the capabilities of Process Monitoring Boxes (PMBs), which represent the current industrial state-of-the-art AVS approach. To overcome this limitation, in this paper we propose an alternative solution using delay testing, which is able to eliminate the need for PMBs, while improving the accuracy of voltage estimation. The paper shows, using simulation of ISCAS’99 benchmarks with 28nm FD-SOI library, that using delay test patterns result in an error of 5.33% for transition fault testing (TF), error of 3.96% for small delay defect testing (SDD), and an error as low as 1.85% using path delay testing (PDLY). In addition, the paper also shows the impact of technology scaling on the accuracy of delay testing for performance estimation during production. The results show that the 65nm technology node exhibits the same trends identified for the 28nm technology node, namely that PDLY is the most accurate, while, TF is the least accurate performance estimator.
AB - With the continued down-scaling of IC technology and increase in manufacturing process variations, it is becoming ever more difficult to accurately estimate circuit performance of manufactured devices. This poses significant challenges on the effective application of adaptive voltage scaling (AVS) which is widely used as the most important power optimization method in modern devices. Process variations specifically limit the capabilities of Process Monitoring Boxes (PMBs), which represent the current industrial state-of-the-art AVS approach. To overcome this limitation, in this paper we propose an alternative solution using delay testing, which is able to eliminate the need for PMBs, while improving the accuracy of voltage estimation. The paper shows, using simulation of ISCAS’99 benchmarks with 28nm FD-SOI library, that using delay test patterns result in an error of 5.33% for transition fault testing (TF), error of 3.96% for small delay defect testing (SDD), and an error as low as 1.85% using path delay testing (PDLY). In addition, the paper also shows the impact of technology scaling on the accuracy of delay testing for performance estimation during production. The results show that the 65nm technology node exhibits the same trends identified for the 28nm technology node, namely that PDLY is the most accurate, while, TF is the least accurate performance estimator.
KW - Adaptive voltage scaling
KW - Delay testing
KW - Performance monitor boxes
KW - Power optimization
KW - Process variations
UR - http://www.scopus.com/inward/record.url?scp=85066123682&partnerID=8YFLogxK
U2 - 10.1007/s10836-019-05797-w
DO - 10.1007/s10836-019-05797-w
M3 - Article
AN - SCOPUS:85066123682
SN - 0923-8174
VL - 35
SP - 303
EP - 315
JO - Journal of Electronic Testing: Theory and Applications (JETTA)
JF - Journal of Electronic Testing: Theory and Applications (JETTA)
IS - 3
ER -