Variable-latency adder (VL-adder): New arithmetic circuit design practice to overcome NBTI
Negative bias temperature instability (NBTI) has become a dominant reliability concern for nanoscale PMOS transistors. In this paper, we propose variable-latency adder (VL-adder) technique for NBTI tolerance. By detecting the circuit failure on-the-fly, the proposed VL-adder can automatically shift data capturing clock edge to tolerate NBTI-induced delay degradation on critical timing paths. VL-adder operates with a fixed supply voltage and clock period, avoiding the high design and manufacturing costs incurred by existing NBTI-tolerant techniques. Compared to other related lower-power adder designs, VL-adder technique always provides better energy efficiency through the whole chip lifetime with very limited performance degradation (4.6% or less). Copyright 2007 ACM.
