S2600GZ and S2600GL

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Table Of Contents

BIOS Setup Utility Intel® Server Board S2600GZ/GL TPS

Help Text:

Sets Thermal Throttling mode for memory, to control fans and DRAM power as needed to

control DIMM temperatures.

[Auto] – BIOS selects mode. BIOS automatically detect and identify the appropriate thermal

throttling mechanism based on DIMM type, airflow input, DIMM sensor availability.

[DCLTT] – Dynamic Closed Loop Thermal Throttling.

[SCLTT] – Static Closed Loop Thermal Throttling.

[SOLTT] – Static Open Loop Thermal Throttling.

Comments: The Thermal Throttling Mode chosen reflects whether the DIMMs have

Temperature Sensors (TSOD), and whether the chassis is an Intel chassis for which thermal data are

available. Note that this is for thermal throttling only, independent of any controls imposed for the

purpose of power limiting.

The server board provides support for system thermal management through open loop throttling (OLTT)

and closed loop throttling (CLTT) of system memory. Normal system operation uses closed-loop

thermal throttling (CLTT) and DIMM temperature monitoring as major factors in overall thermal and

acoustics management. In the event that BIOS is unable to configure the system for CLTT, it defaults to

open-loop thermal throttling (OLTT). In the OLTT mode, it is assumed that the DIMM temperature

sensors are not available for fan speed control.

Throttling levels are changed dynamically to cap throttling based on memory and system thermal

conditions as determined by the system and DIMM power and thermal parameters. The BMC’s fan

speed control functionality is linked to the memory throttling mechanism used.

 DCLTT is the expected mode for a board in an Intel chassis with inlet and outlet air

temperature sensors and TSOD. The firmware can update the offset registers for closed

loop during runtime, as BIOS sends the dynamic CLTT offset temperature data.

 SCLTT would be used with an OEM chassis and DIMMs with TSOD. The firmware does not

change the offset registers for closed loop during runtime, although the Management Engine

can do so.

Both Static and Dynamic CLTT modes implement a Hybrid Closed Loop Thermal Throttling

mechanism whereby the Integrated Memory Controller estimates the DRAM temperature in

between actual reads of the memory thermal sensors.

 SOLTT is intended for a system with UDIMMs which do not have TSOD. The thermal control

registers are configured during POST, and the firmware does not change them.

Back to [System Acoustic and Performance Configuration]

1. Altitude

Option Values: 300m or less

301m-900m

901m-1500m

Higher than 1500m

Help Text:

[300m or less](980ft or less) Optimal near sea level.

[301m-900m](980ft-2950ft) Optimal performance setting at moderate elevation.

[901m-1500m](2950ft-4920ft) Optimal performance setting at high elevation.

[Above 1500m](above 4920ft) Optimal performance setting at the highest elevations.

Comments: This option sets an altitude value in order to choose a Fan Profile that is

optimized for the air density at the current altitude at which the system is installed.

Lower altitude selection can lead to potential thermal risk. And higher altitude selection provides better

cooling but with undesired acoustic and fan power consumption. If the altitude is known, higher altitude

is recommended in order to provide sufficient cooling.

Back to [System Acoustic and Performance Configuration

]

Revision 2.4

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