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Gate-level body biasing for subthreshold logic circuits: Analytical modeling and design guidelines

Abstract:

Gate-level body biasing provides an attractive solution to increase speed and robustness against process and temperature variations while maintaining energy efficiency. In this paper, the behavior of basic logic gates, designed according to the proposed design technique, is analytically examined with the main purpose of furnishing important guidelines to design efficient subthreshold digital circuits. Our modeling has been fully validated by comparing the pbkp_redicted results with SPICE simulations performed for a commercial 45-nm complementary metal oxide semiconductor technology. Considering process, temperature and loading capacitance variations, the delay of an inverter is pbkp_redicted with a maximum error lower than 16.5%. Even better results are obtained when our modeling is applied to more complex logic gates. Under process, loading capacitance and temperature variations, the delay of NAND2 and NOR2 logic gates is always pbkp_redicted with an error below 10%. Good agreement between the pbkp_redicted and simulated results makes our modeling a valuable support during the circuit design phase.