Digital Thermal Sensor - Intel PENTIUM P6000 - DATASHEET 2010 Datasheet

Mobile processor series

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Specification (47 pages)

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Thermal Management

•

On a downward transition, the frequency transition precedes the voltage transition.

When transitioning to a target core operating voltage, a new VID code to the voltage

regulator is issued. The voltage regulator must support dynamic VID steps to support

this method.

During the voltage change:

•

It will be necessary to transition through multiple VID steps to reach the target

operating voltage.

•

Each step is 12.5 mV for Intel MVP-6.5 compliant VRs.

•

The processor continues to execute instructions. However, the processor will halt

instruction execution for frequency transitions.

If a processor load-based Enhanced Intel SpeedStep Technology/P-state transition

(through MSR write) is initiated while the Adaptive Thermal Monitor is active, there are

two possible outcomes:

•

If the P-state target frequency is higher than the processor core optimized target

frequency, the p-state transition will be deferred until the thermal event has been

completed.

•

If the P-state target frequency is lower than the processor core optimized target

frequency, the processor will transition to the P-state operating point.

5.2.1.1.2

Clock Modulation

If the frequency/voltage changes are unable to end an Adaptive Thermal Monitor

event, the Adaptive Thermal Monitor will utilize clock modulation. Clock modulation is

done by alternately turning the clocks off and on at a duty cycle (ratio between clock

"on" time and total time) specific to the processor. The duty cycle is factory configured

to 37.5% on and 62.5% off and cannot be modified. The period of the duty cycle is

configured to 32 microseconds when the TCC is active. Cycle times are independent of

processor frequency. A small amount of hysteresis has been included to prevent

excessive clock modulation when the processor temperature is near its maximum

operating temperature. Once the temperature has dropped below the maximum

operating temperature, and the hysteresis timer has expired, the TCC goes inactive and

clock modulation ceases. Clock modulation is automatically engaged as part of the TCC

activation when the frequency/VID targets are at their minimum settings. Processor

performance will be decreased by the same amount as the duty cycle when clock

modulation is active. Snooping and interrupt processing are performed in the normal

manner while the TCC is active.

5.2.1.2