Leakage and leakage sensitivity computation for combinational circuits

Abstract

Leakage power is emerging as a new critical challenge in the design of high performance integrated circuits. Leakage is increasing dramatically with each technology generation and is expected to dominate system power. This paper describes a static (i.e input independent) technique for efficient and accurate leakage estimation. A probabilistic technique is presented to compute the average leakage of combinational circuits. The proposed technique gives accurate results with an average error of only 2% for the ISCAS benchmarks and accurately predict both subthreshold and gate leakage as well as the leakage sensitivities to process and environmental parameters.