Static power model for CMOS and FPGA circuits

Abstract

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Abstract In Ultra‐Low‐Power (ULP) applications, power consumption is a key parameter for process independent architectural level design decisions. Traditionally, time‐consuming Spice simulations are used to measure the static power consumption. Herein, a technology‐independent static power estimation model is presented, which can estimate static power with reasonable accuracy in much less time. It is shown that active area only is not a good indicator for static power consumption, hence in this model, the effects of transistor sizing, transistor stacking, gate boosting and voltage change are considered. The procedure to apply this model to processors and FPGAs is demonstrated. Across different process technologies, compared to traditional spice simulation, this model can estimate the static power consumption of processor with an error of 1%–4%, while static power consumption of an FPGA system with an error of 1%–15%.

Keywords

• CMOS logic circuits
• field programmable gate arrays
• integrated circuit modelling
• logic design
• low‐power electronics
• power consumption