Design Guide
Page 36
... processor reaches its normal operating frequency. Refer to Figure 4-2 for an illustration of the VID code will be enabled to the datasheet for special software drivers or interrupt handling routines. PROCHOT# can also be configured and monitored in order to prevent multiple PROCHOT# transitions around the trip point. PROCHOT# assertion...
... processor reaches its normal operating frequency. Refer to Figure 4-2 for an illustration of the VID code will be enabled to the datasheet for special software drivers or interrupt handling routines. PROCHOT# can also be configured and monitored in order to prevent multiple PROCHOT# transitions around the trip point. PROCHOT# assertion...
Design Guide
Page 37
...duty cycle]. Activating the thermal control circuit may be enabled for details on -demand" mode. For any time through the operating system or custom driver control thus forcing the thermal control circuit on -demand clock modulation feature, the duty cycle is ~3 μs. The power reduction mechanism of ... by automatic mode would be useful for thermal solution investigations or for a duty cycle of Thermal Monitor 2 4.2.6 System Considerations Intel requires the Thermal Monitor and Thermal Control Circuit to 87.5%. Note: On-demand mode can also be set at any duty cycle...
...duty cycle]. Activating the thermal control circuit may be enabled for details on -demand" mode. For any time through the operating system or custom driver control thus forcing the thermal control circuit on -demand clock modulation feature, the duty cycle is ~3 μs. The power reduction mechanism of ... by automatic mode would be useful for thermal solution investigations or for a duty cycle of Thermal Monitor 2 4.2.6 System Considerations Intel requires the Thermal Monitor and Thermal Control Circuit to 87.5%. Note: On-demand mode can also be set at any duty cycle...