Abstract

On-chip level shifters are the interface between parts of an Integrated Circuit (IC) that operate in different voltage levels. For this reason, they are indispensable blocks in Multi-Vdd System-on-Chips (SoCs). In this paper, we present a comprehensive analysis of the effects of Bias Temperature Instability (BTI) aging on the delay and the power consumption of level shifters. We evaluate the standard High-to-Low/Low-to-High level shifters, as well as several recently proposed level-shifter designs, implemented using a 32nm CMOS technology. Through SPICE simulations, we demonstrate that the delay degradation due to BTI aging varies for each level shifter design: it is 83.3% on average and it exceeds 200% after 5years of operation for the standard Low-to-High and the NDLSs level shifters, which is 10× higher than the BTI-induced delay degradation of standard CMOS logic cells. Similarly, we show that the examined designs can suffer from an average 38.2% additional power consumption after 5years of operation that, however, reaches 180% for the standard level-shifter and exceeds 163% for the NDLSs design. The high susceptibility of these designs to BTI is attributed to their differential signaling structure, combined with the very low supply voltage. Moreover, we show that recently proposed level-up shifter design employing a voltage step-down technique are much more robust to BTI aging degradation. To the best of our knowledge, this is the first work addressing the effects of BTI on the the delay and power consumption of level shifters.

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