Abstract: A processor that dynamically remaps logical cores to physical cores is disclosed. In one embodiment, the processor includes a plurality of physical cores, and is configured to store a mapping of logical cores to the plurality of physical cores. The processor further includes an assignment unit configured to remap the logical cores to the plurality of physical cores subsequent to a boot process of the processor. In some embodiments, the assignment unit is configured to remap the logical cores in response to receiving an indication that one or more of the plurality of physical cores have entered an idle state. The processor may be configured to load a first of the plurality of physical cores with an execution state of a second of the plurality of physical cores upon the first physical core exiting an idle state.

Abstract: A system and method for efficient power transfer on a die. A semiconductor chip comprises on a die two or more computation units (CUs) utilizing at least two different voltage regulators and a power manager. The power manager reallocates power credits across the die when it detects an activity level of a given CU is below a given threshold. In response to receiving a corresponding number of donated power credits, each of the one or more selected CUs maintains a high activity level with a high performance P-state. When a corresponding workload increases, each CU maintains operation and an average power consumption corresponding to the high performance P-state by alternating between at least two different operational voltages. When the operational voltage drops during the alternation, the current drawn by the particular CU may exceed a given current limit. The power manager detects this current limit is exceeded and accordingly reallocates the power credits across the die.

Abstract: A processor that dynamically remaps logical cores to physical cores is disclosed. In one embodiment, the processor includes a plurality of physical cores, and is configured to store a mapping of logical cores to the plurality of physical cores. The processor further includes an assignment unit configured to remap the logical cores to the plurality of physical cores subsequent to a boot process of the processor. In some embodiments, the assignment unit is configured to remap the logical cores in response to receiving an indication that one or more of the plurality of physical cores have entered an idle state. The processor may be configured to load a first of the plurality of physical cores with an execution state of a second of the plurality of physical cores upon the first physical core exiting an idle state.

Abstract: A method for controlling power consumption while maximizing processor performance. The method includes, for a time interval of operation in a first operational state, determining an amount of power consumed during by one or more cores of a processor, calculating, a power error based on the amount of power consumed in the time interval, obtaining a power error term for the interval by adding the power error to a power error term from a previous time interval, and comparing the power error term to at least a first error threshold. If the power error term is outside a range defined at least in part by the first error threshold, the method exits the first operational state and enters a second operational state. If the power error term is within the range defined at least in part by the first error threshold, operation continues in the first operational state.

Abstract: A system and method for efficient power transfer on a die. A semiconductor chip comprises on a die two or more computation units (CUs) utilizing at least two different voltage regulators and a power manager. The power manager reallocates power credits across the die when it detects an activity level of a given CU is below a given threshold. In response to receiving a corresponding number of donated power credits, each of the one or more selected CUs maintains a high activity level with a high performance P-state. When a corresponding workload increases, each CU maintains operation and an average power consumption corresponding to the high performance P-state by alternating between at least two different operational voltages. When the operational voltage drops during the alternation, the current drawn by the particular CU may exceed a given current limit. The power manager detects this current limit is exceeded and accordingly reallocates the power credits across the die.

Abstract: A method for controlling power consumption while maximizing processor performance. The method includes, for a time interval of operation in a first operational state, determining an amount of power consumed during by one or more cores of a processor, calculating, a power error based on the amount of power consumed in the time interval, obtaining a power error term for the interval by adding the power error to a power error term from a previous time interval, and comparing the power error term to at least a first error threshold. If the power error term is outside a range defined at least in part by the first error threshold, the method exits the first operational state and enters a second operational state. If the power error term is within the range defined at least in part by the first error threshold, operation continues in the first operational state.