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Intel

Itanium

Processor 9300 Series and 9500 Series Datasheet 135

Thermal Specifications

5.1.1.2 Thermal Sensor Accuracy Distribution for the Intel

Itanium

Processor 9500 Series

Table 5-2 shows the processor thermal sensor accuracy with respect to the DT readout

for the Intel® Itanium® Processor 9500 Series . The margin of error is relative to

PROCHOT and represents the typical ±3-sigma range. For the Intel® Itanium®

Processor 9500 Series, it is based on presilicon simulation data. It should be noted that

a particular part should be consistent across the entire operating range.

5.1.2 Thermal Management

5.1.2.1 Overview

The Thermal Management controller on the processor will measure the die temperature

using thermal sensors placed in several key locations on the die. Each sensor is fed into

a central thermometer logic block. For the Intel

Itanium

Processor 9300 Series and

Intel

Itanium

Processor 9500 Series, the central thermometer logic block will report

the highest temperature of all sensors. Referring to Figure 5-1, the sequence of steps

taken by the processor thermal management system are presented in steps (a) to (d).

a. If T>=T

PROCHOT

and the Intel

Itanium

Processor 9300 Series is operating at

boost frequency, then the thermal management system will instruct the

processor to go to base voltage and frequency.

After a delay, if the processor temperature is below the T

PROCHOT

threshold,

normal operation will resume including the Intel

Itanium

Processor 9300

Series being allowed to operate at boost frequency if appropriate.

If T>=T

PROCHOT

, the Intel® Itanium® Processor 9500 Series thermal

management system will reduce the activity factor maximum limit. After a

delay, if the processor temperature is below T

PROCHOT

threshold, normal

operation will resume and the previous Intel® Itanium® Processor 9500 Series

activity factor maximum limit will be restored.

b. If T>=T

PROCHOT

and the Intel

Itanium

Processor 9300 Series is already at or

below base voltage and frequency, then the thermal management system will

assert PROCHOT_N and the processor will enter Single Issue Mode (SIM) and

transition to the voltage and frequency of the lowest supported P-state.

0x2A - 0x30 ±7°C

0x31 - 0x37 ±8°C

0x38- 0x3E ±9°C

0x3F - 0x45 ±10°C

Table 5-1. Thermal Sensor Accuracy Distribution for the Intel

Itanium

Processor 9300

Series (Sheet 2 of 2)

DT Readout

Expected Margin of Error

Relative to PROCHOT

Table 5-2. Thermal Sensor Accuracy Distribution for the Intel® Itanium® Processor

9500 Series

DT Readout Expected Margin of Error

Relative to PROCHOT

0x83 - 0x80, 0x00 - 0x03 ± 1°C

0x04 - 0x32 ± 3°C

0x33 - 0x49 ± 5°C