An Industrial Case Study of Low Cost Adaptive Voltage Scaling Using Delay Test Patterns
Mahroo Zandrahimi1,a, Philippe Debaud2,c, Armand Castillejo2,d and Zaid Al‐Ars1,b
1Delft University of Technology, The Netherlands
am.zandrahimi@tudelft.nl
bz.al-ars@tudelft.nl
2STMicroelectronics, Grenoble, France
cphilippe.debaud@st.com
darmand.castillejo@st.com
ABSTRACT
In deep sub‐micron technologies, the increasing effect of process and environmental variations has lead chip manufacturers to use adaptive voltage scaling techniques in order to adapt operation parameters exclusively to each chip. The increasing effect of process variation is limiting the effectiveness of current chip monitoring approaches, such as on‐chip performance monitor boxes (PMBs), which results in yield loss and high design margins, thus high power consumption. This paper proposes an alternative solution for adaptive voltage scaling using delay test patterns, which is able to eliminate the need for PMBs, and thus the long expensive characterization phase of tuning PMBs to each design, while improving the yield as well as power optimization. Results show, using an industrial grade 28nm FDSOI library developed for low power devices, that delay testing for performance prediction reduces the inaccuracy down to 1.85%.
