Energy optimization techniques in a computing system
First Claim
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1. A method in a computing platform comprising:
- determining a plurality of time values consumed by a processing element to perform each of a plurality of regions within an application at a plurality of frequency values;
determining performance loss values for each of the plurality of regions based on the plurality of time values;
determining energy savings values for each of the plurality of regions based on voltage values for each of the plurality of frequency values;
generating a graph by plotting the energy savings values and the performance loss values;
receiving a user input, via a graphics user interface, selecting a point of operation indicating a first performance loss value and a first energy savings value, wherein the first performance value is included in the performance loss values and the first energy savings value is included in the energy savings value;
determining first frequency values corresponding to the first performance loss value and the first energy savings value, at which a processing element is to be operated while processing each of the plurality of regions; and
changing frequency of a clock provided to the processing element based on the first frequency values, wherein the frequency of the clock provided to the processing element is changed while the processing element is performing the plurality of regions;
wherein operating the processing element at the first frequency values while processing the plurality of regions is to provide optimal energy savings.
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Abstract
A computing platform may include components to determine performance loss values and energy savings values for each of the plurality of regions and/or the memory boundedness value of each of a plurality of regions within an application. The computing platform may provide a user interface for a user to provide a user input, which provides an indication of an acceptable performance loss. For the provided performance loss value, the frequency values may be determined and the processing element may be operated at the frequency values while processing each of the plurality of regions.
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Citations
26 Claims
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1. A method in a computing platform comprising:
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determining a plurality of time values consumed by a processing element to perform each of a plurality of regions within an application at a plurality of frequency values; determining performance loss values for each of the plurality of regions based on the plurality of time values; determining energy savings values for each of the plurality of regions based on voltage values for each of the plurality of frequency values; generating a graph by plotting the energy savings values and the performance loss values; receiving a user input, via a graphics user interface, selecting a point of operation indicating a first performance loss value and a first energy savings value, wherein the first performance value is included in the performance loss values and the first energy savings value is included in the energy savings value; determining first frequency values corresponding to the first performance loss value and the first energy savings value, at which a processing element is to be operated while processing each of the plurality of regions; and changing frequency of a clock provided to the processing element based on the first frequency values, wherein the frequency of the clock provided to the processing element is changed while the processing element is performing the plurality of regions; wherein operating the processing element at the first frequency values while processing the plurality of regions is to provide optimal energy savings. - View Dependent Claims (2, 3, 4, 5)
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6. A method in a computing platform comprising:
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determining a memory boundedness value for each of a plurality of regions within an application; generating a graph by plotting the energy savings values and the performance loss values; receiving a user input, via a graphics user interface using the graph, to select a point of operation indicating a maximum tolerable performance loss value for the plurality of regions; determining a frequency value at which a processing element is to operate while performing each of the plurality of regions, wherein the frequency value is determined based on the memory boundedness value for each of the plurality of regions and the maximum tolerable performance loss; and changing frequency of a clock provided to the processing element based on the frequency value, wherein the frequency of the clock provided to the processing element is changed while the processing element is performing the plurality of regions; wherein operating the processing element at the frequency value while processing the plurality of regions is to provide optimal energy savings. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13)
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14. A machine-readable storage medium comprising a plurality of instructions that in response to being executed result in a processor comprising:
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determining a memory boundedness value for each of a plurality of regions within an application; generating a graph by plotting the energy savings values and the performance loss values; receiving a user input, via a graphics user interface using the graph, to select a point of operation indicating a maximum tolerable performance loss value for the plurality of regions; determining a frequency value at which a processing element is to operate while performing each of the plurality of regions, wherein the frequency value is determined based on the memory boundedness value for each of the plurality of regions and the maximum tolerable performance loss; and changing frequency of a clock provided to the processing element based on the frequency value, wherein the frequency of the clock provided to the processing element is changed while the processing element is performing the plurality of regions; wherein operating the processing element at the frequency value while processing the plurality of regions is to provide optimal energy savings. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
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22. A computing system comprising:
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a plurality of applications; a monitor; an analyzer; a graphics user interface; an operating system including a dynamic optimizer; a processing element; and a power management logic coupled to the processing element and the operating system; wherein the analyzer is to, determine a plurality of time values consumed by a processing element to perform each of a plurality of regions within an application at a plurality of frequency values, determine performance loss values for each of the plurality of regions based on the plurality of time values, determine energy savings values for each of the plurality of regions based on voltage values for each of the plurality of frequency values; and generate a graph by plotting the energy savings values and the performance loss values; wherein the graphics user interface is to receive a user input via the graph selecting a point of operation indicating a first performance loss value and a first energy savings value, wherein the first performance value is included in the performance loss values and the first energy savings value is included in the energy savings value; wherein the operating system is to determine first frequency values corresponding to the first performance loss value and the first energy savings value, at which a processing element is to be operated while processing each of the plurality of regions; and wherein the power management logic is to cause a change in frequency of a clock provided to the processing element based on the first frequency values, wherein the frequency of the clock provided to the processing element is changed while the processing element is performing the plurality of regions; wherein operating the processing element at the first frequency values while processing the plurality of regions is to provide optimal energy savings. - View Dependent Claims (23, 24, 25, 26)
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Specification