Event-driven power estimation of CMOS circuits

Abstract

Fast and accurate power estimation has become an important topic with the increasing need for low power electronics. In this paper we address the problem of using event-driven simulation tools for power estimation. We identify and compare two approaches: input-driven and output-driven, and propose several ways of improvement. The estimation accuracy is degraded in event-driven power estimators due to superfluous and partial glitches. We described glitch filtering and estimation techniques pertaining to input-driven and output-driven power estimators. An output-driven power estimator, Peony, was developed which used the proposed path pouter idea to improve the estimation accuracy. It achieved significant power estimation accuracy improvement at a speed of two orders of magnitude faster than Spice.