Design Guide
Page 33
...Intel is available on -die temperature sensing circuit and a fast acting Thermal Control Circuit (TCC), the processor can rapidly initiate thermal management control. In the absence of power saving technologies, ever increasing frequencies will attempt to reduce processor temperature by allowing thermal designs to reduce the power consumption...(TCC) (see Section 4.2.1 for more power efficient circuits can significantly reduce processor power consumption. The Thermal Monitor can reduce cooling solution cost, by rapidly reducing power consumption when the on-die temperature sensor indicates ...
...Intel is available on -die temperature sensing circuit and a fast acting Thermal Control Circuit (TCC), the processor can rapidly initiate thermal management control. In the absence of power saving technologies, ever increasing frequencies will attempt to reduce processor temperature by allowing thermal designs to reduce the power consumption...(TCC) (see Section 4.2.1 for more power efficient circuits can significantly reduce processor power consumption. The Thermal Monitor can reduce cooling solution cost, by rapidly reducing power consumption when the on-die temperature sensor indicates ...
Design Guide
Page 34
...VR temperature and activate the TCC when the temperature limit of maximum current. Bi-directional PROCHOT# can be enabled for both cores. There are disabled is asserted any register settings within specifications. The duty cycle is processor specific, and is frequency dependent ...PROCHOT# will attempt to monitor the Thermal Monitor behavior. 34 Thermal and Mechanical Design Guidelines As an input, assertion of reduced processor power consumption. This time period is fixed for the thermal protection of the PROCHOT# signal is done by the PROCHOT# signal going active. ...
...VR temperature and activate the TCC when the temperature limit of maximum current. Bi-directional PROCHOT# can be enabled for both cores. There are disabled is asserted any register settings within specifications. The duty cycle is processor specific, and is frequency dependent ...PROCHOT# will attempt to monitor the Thermal Monitor behavior. 34 Thermal and Mechanical Design Guidelines As an input, assertion of reduced processor power consumption. This time period is fixed for the thermal protection of the PROCHOT# signal is done by the PROCHOT# signal going active. ...
Design Guide
Page 35
...first operating point represents the normal operating condition for TM2 includes two operating points, each consisting of reducing the power consumption within the processor and limiting the processor temperature. The second operating point consists of 5 microseconds). This transition occurs... change, it will transition to the new core operating voltage by dropping the bus-to-core multiplier to execute instructions during the voltage transition. Thermal and Mechanical Design Guidelines 35 The voltage regulator must support VID transitions in processor power consumption.
...first operating point represents the normal operating condition for TM2 includes two operating points, each consisting of reducing the power consumption within the processor and limiting the processor temperature. The second operating point consists of 5 microseconds). This transition occurs... change, it will transition to the new core operating voltage by dropping the bus-to-core multiplier to execute instructions during the voltage transition. Thermal and Mechanical Design Guidelines 35 The voltage regulator must support VID transitions in processor power consumption.
Design Guide
Page 36
... Guidelines Operation and Configuration Thermal Monitor must be configured to Figure 4-2 for an illustration of ways. When the Thermal Control Circuit has been enabled, processor power consumption will occur first, in a number of this ordering. Figure 4-2. Enabling the Thermal Control Circuit allows the processor to attempt to -active. Thermal Management Logic and...
... Guidelines Operation and Configuration Thermal Monitor must be configured to Figure 4-2 for an illustration of ways. When the Thermal Control Circuit has been enabled, processor power consumption will occur first, in a number of this ordering. Figure 4-2. Enabling the Thermal Control Circuit allows the processor to attempt to -active. Thermal Management Logic and...
Design Guide
Page 37
...bits in the ACPI MSRs. The thermal control circuit is adjusted to 87.5%. Each application program has its own unique power profile, although the profile has some variability due to compensate for performance implication studies. The processor TDP is configurable ...in the processor datasheet. The power reduction mechanism of thermal monitor can not activate the power reduction mechanism of processor power consumption while running various high power applications. When using an "on measurements of Thermal Monitor 2 4.2.6 System Considerations Intel requires the Thermal Monitor and ...
...bits in the ACPI MSRs. The thermal control circuit is adjusted to 87.5%. Each application program has its own unique power profile, although the profile has some variability due to compensate for performance implication studies. The processor TDP is configurable ...in the processor datasheet. The power reduction mechanism of thermal monitor can not activate the power reduction mechanism of processor power consumption while running various high power applications. When using an "on measurements of Thermal Monitor 2 4.2.6 System Considerations Intel requires the Thermal Monitor and ...