Dell PowerEdge M910 Manuel technique - Page 19

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Dell PowerEdge M910 Manuel technique
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5.3 Thermal

The M910 thermal solution includes:
Optimized airflow impedance for individual blade and chassis level airflow balancing
Custom air baffling directs airflow through the components to maintain proper cooling
Custom-designed heat sinks maintain CPU, IOH, and Intel 7500 chip temperatures within
thermal design targets
Highly Optimized Fan Control Algorithm such as the following:
o Base fan speeds are a function of hardware configuration and ambient temperature
to minimize airflow for a given environment
o PID control algorithms are used for both CPU and DIMMs to maintain appropriate
thermal margin
o Double refresh switching allows for DIMM temperature excursions up to 95°C while
maintaining performance and thermal design targets as follows:

5.4 Power Efficiency

One of the main features of blade servers is enhanced power efficiency. The PowerEdge M910
achieves higher power efficiency by implementing the following features:
User-configurable power options via the M1000e Chassis Management Controller (CMC)
Improved power budgeting
Voltage Regulator efficiency improvements
CPU VR dynamic phase shedding
Switching regulators instead of linear regulators
Closed loop thermal throttling
Use of DDR3 memory (lower voltage compared to DDR2)
Memory VR static phase shedding
BIOS Power/Performance options page
Active Power Controller (BIOS-based CPU P-state manager)
Ability to throttle memory
Ability to disable a CPU core
Ability to turn off embedded NICs or PCIe lanes when not being used
Energy Smart components at the M1000e chassis level to selectively enable more computing
performance with less power consumption
PowerEdge M910 Technical Guide
The M910 thermal algorithm monitors the thermal sensor on each DIMM to
maintain DIMM temperatures below the typical 85°C specification in normal
operating conditions.
Under extreme operating conditions, the thermal algorithm can switch the
DIMMs into Double Refresh mode allowing an additional 10°C of thermal
headroom. In Double Refresh mode, DIMMs are allowed to operate as high
as 95°C.
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