Abstract: A method and apparatuses for power regulation using an extended current limit are disclosed. The power regulator detects an occurrence of an output current of the regulator exceeding a first current limit, triggers an extended current limit timer based on the detected occurrence, regulates the output current according to a second current limit higher than the first current limit based on a duration of the extended current limit timer, and regulates the output current according to the first current limit based on an expiration of the duration of the extended current limit timer.

Abstract: A method and apparatuses for power regulation using an extended current limit are disclosed. The power regulator detects an occurrence of an output current of the regulator exceeding a first current limit, triggers an extended current limit timer based on the detected occurrence, regulates the output current according to a second current limit higher than the first current limit based on a duration of the extended current limit timer, and regulates the output current according to the first current limit based on an expiration of the duration of the extended current limit timer.

Abstract: A method and apparatuses for power regulation using an extended current limit are disclosed. The power regulator detects an occurrence of an output current of the regulator exceeding a first current limit, triggers an extended current limit timer based on the detected occurrence, regulates the output current according to a second current limit higher than the first current limit based on a duration of the extended current limit timer, and regulates the output current according to the first current limit based on an expiration of the duration of the extended current limit timer.

Abstract: A system is provided that controls the clocking of a processor depending upon its usage of execution units. As the processor transitions from a default mode of operation using a default number of the execution units to an increased load mode of operation using an increased number of the execution units, a current drawn by the processor from a power rail remains substantially unchanged.

Abstract: A system is provided that controls the clocking of a processor depending upon its usage of execution units. As the processor transitions from a default mode of operation using a default number of the execution units to an increased load mode of operation using an increased number of the execution units, a current drawn by the processor from a power rail remains substantially unchanged.

Abstract: At least one processor may determine, for each of a plurality of operating performance points (OPPs) that each comprise a memory frequency and a graphics processing unit (GPU) frequency, an estimated energy consumption associated with a memory and the GPU operating at the respective memory frequency and GPU frequency to process a workload based at least in part on a plurality of energy equations associated with the plurality of OPPs. The at least one processor may set the memory and the GPU to operate at the respective memory frequency and GPU frequency of one of the plurality of OPPs to process the workload based at least in part on the estimated energy consumption.

Abstract: A technique for determining thermal design point (TDP) power efficiency for an integrated circuit is disclosed. A simulation executes a set of input vectors on a model of an integrated circuit to generate a first estimated power consumption data during a first number of clock cycles. A simulation executes the set of input vectors on a model of an integrated circuit to generate a second estimated power consumption data during a second number of clock cycles. TDP power efficiency for the integrated circuit is calculated based on the first estimated power consumption data and the second estimated power consumption data.

Abstract: A technique for determining thermal design point (TDP) power efficiency for an integrated circuit is disclosed. A simulation executes a set of input vectors on a model of an integrated circuit to generate a first estimated power consumption data during a first number of clock cycles. A simulation executes the set of input vectors on a model of an integrated circuit to generate a second estimated power consumption data during a second number of clock cycles. TDP power efficiency for the integrated circuit is calculated based on the first estimated power consumption data and the second estimated power consumption data.