Specification Sheet

ManualsBrandsINTEL ManualsPC ComponentsWOF processor Core i9 i9-7920X 12 x 2.9 GHz

Thermal Management

88 Datasheet, Volume 1 of 2

frequency, voltage, or both. Changes to the temperature can be detected using two

programmable thresholds located in the processor thermal MSRs. These thresholds

have the capability of generating interrupts using the processor IA core's local APIC.

5.1.5.2.1 Digital Thermal Sensor Accuracy (Taccuracy)

The error associated with DTS measurements will not exceed ±5 °C within the entire

operating range.

5.1.5.2.2 Fan Speed Control with Digital Thermal Sensor

Digital Thermal Sensor based fan speed control (T

FAN

) is a recommended feature to

achieve optimal thermal performance. At the T

FAN

temperature, Intel recommends full

cooling capability before the DTS reading reaches Tj

MAX

5.1.5.3 PROCHOT# Signal

PROCHOT# (processor hot) is asserted by the processor when the TCC is active. Only a

single PROCHOT# pin exists at a package level. When any DTS temperature reaches

the TCC activation temperature, the PROCHOT# signal will be asserted. PROCHOT#

assertion policies are independent of Adaptive Thermal Monitor enabling.

5.1.5.4 Bi-Directional PROCHOT#

By default, the PROCHOT# signal is set to input only. When configured as an input or

bi-directional signal, PROCHOT# can be used for thermally protecting other platform

components should they overheat as well. When PROCHOT# is driven by an external

device:

• The package will immediately transition to the lowest P-State (Pn) supported by the

processor IA cores and graphics cores. This is contrary to the internally-generated

Adaptive Thermal Monitor response.

• Clock modulation is not activated.

The processor package will remain at the lowest supported P-state until the system de-

asserts PROCHOT#. The processor can be configured to generate an interrupt upon

assertion and de-assertion of the PROCHOT# signal.

When PROCHOT# is configured as a bi-directional signal and PROCHOT# is asserted by

the processor, it is impossible for the processor to detect a system assertion of

PROCHOT#. The system assertion will have to wait until the processor de-asserts

PROCHOT# before PROCHOT# action can occur due to the system assertion. While the

processor is hot and asserting PROCHOT#, the power is reduced but the reduction rate

is slower than the system PROCHOT# response of < 100 us. The processor thermal

control is staged in smaller increments over many milliseconds. This may cause several

milliseconds of delay to a system assertion of PROCHOT# while the output function is

asserted.

5.1.5.5 Voltage Regulator Protection using PROCHOT#

PROCHOT# may be used for thermal protection of voltage regulators (VR). System

designers can create a circuit to monitor the VR temperature and assert PROCHOT#

and, if enabled, activate the TCC when the temperature limit of the VR is reached.

When PROCHOT# is configured as a bi-directional or input only signal, if the system

assertion of PROCHOT# is recognized by the processor, it will result in an immediate

transition to the lowest P-State (Pn) supported by the processor IA cores and graphics