Electrical computers and digital processing systems: virtual mac – Task management or control – Process scheduling
Reexamination Certificate
1999-08-10
2004-11-23
Wiley, David (Department: 2143)
Electrical computers and digital processing systems: virtual mac
Task management or control
Process scheduling
C718S104000
Reexamination Certificate
active
06823516
ABSTRACT:
FIELD OF THE INVENTION
The present invention is related to computing systems, and more particularly to a system and method for adjusting to changes in processor performance.
BACKGROUND INFORMATION
Designers of mobile computing platforms are faced with a delicate balance. They seek to increase performance of the CPU but at the same time limit the power consumed in order to conserve battery life and limit the heat generated by the system. As part of this balancing act mobile systems often rely on software-controlled thermal management systems in order to operate efficiently within a varying group of thermal constraints. For instance, a specification may define two or more thresholds that indicate temperatures at which different forms of software-controlled thermal management are activated. Active objects may be used to define a temperature threshold for a given thermal zone. When this threshold is exceeded, the operating system activates an active device (e.g., a fan or a remote heat exchanger), or reduces the battery charge current.
Historically, CPUs have had a discrete operating point, characterized by a given frequency and power. The frequency is typically some multiple of the external clock delivered to the CPU; the power dissipated by the CPU is a function of the core frequency and voltage applied to the CPU. As the applied voltage level is increased, advanced processing technologies allow for the core frequency to be increased, resulting in a nonlinear increase in power consumption.
Mobile systems typically operate at the lowest voltage and frequency pair required to keep the typical dissipated power below mobile battery-powered limits. Because voltage can be increased to deliver higher performance for a given component, desktop CPUs typically deliver higher performance than their mobile counterparts at any given point in time.
Systems have been proposed which use passive thresholds to define a temperature at which the power of one or more CPUs should be reduced in order to cool a given thermal zone. In the Advanced Configuration and Power Interface (ACPI) model, the operating system varies the CPU duty cycle so the power dissipation of the CPU matches the power dissipation capabilities of the system. See,
Advanced Configuration and Power Interface (ACPI) Specification
, Revision 1.0., published by Intel, Microsoft and Toshiba in 1997. This type of thermal management is termed “throttling” or “passive cooling. To support throttling, the ACPI model defines registers that allow the operating system to control the duty cycle of the CPU.
Throttling reduces the heat generated by the mobile computing platform but does so without regard for processing efficiency. What is needed is a system and method for reducing power generation without throttling the CPU.
SUMMARY OF THE INVENTION
In a computer system having a processor capable of operating at a plurality of performance states, including a first and a second performance state, wherein while the processor operates in any of the performance states it executes tasks at an expected processing performance, a system and method is described for dynamically adjusting to transitions between the first and second performance states. A determination is made that a performance state change is needed and a transition is initiated. The system halts task scheduling, measures CPU performance at the new performance state and resumes task scheduling within the constraints of the new performance state. The system also adjusts tasks as a function of CPU performance within the new performance state, wherein adjusting includes notifying each task of the transition between performance states.
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Avellino Joseph E.
Intel Corporation
Schwegman Lundberg Woessner & Kluth P.A.
Wiley David
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