A Q-Learning-Based Hierarchical Power Delivery Architecture for the Efficient Management of Heterogeneous Loads

A new approach to end-to-end power delivery for increasingly sought-after hierarchical power delivery units (PDUs) is presented, improving the power efficiency of portable systems. The benefits of the technique are demonstrated through a PDU comprising multiple DC–DC converters, such as low-dropout regulators (LDOs), and the support of heterogeneous loads. A properly tailored Q-algorithm is combined with power gating to manage the power supplied by a multi-level PDU. The effectiveness of the proposed method is evaluated via a realistic PDU for different combinations of loads. The learning-based technique yields up to 13% higher total end-to-end power efficiency in the case of similar loads by utilizing four available LDOs compared to the case of a single LDO, which supports the same span of loads. Moreover, the proposed method improves power efficiency by up to 5% in the case of heterogeneous loads when compared to other autonomous state-of-the-art power management units.