Provably Minimal Energy Using Coordinated Dvs And Power Gating

Both energy and execution speed can be greatly impacted by clock and power gating, nonlinear voltage scaling, and leakage energy. We address the problem of coordinated power gating and dynamic voltage scaling (DVS) to minimize the overall energy consumption of an application under user-specified timing constraints. We prove that a solution provided by our convex programming formulation that uses at most two versions of hardware, where each version uses its own constant voltages, is optimal. Comprehensive evaluation of the new approach demonstrates energy improvements over traditional DVS and DVS and power gating techniques by factors of 1.44X-2.97X and 1.44X-2.82X, respectively.