Dell PowerEdge M910 Technical Manual - Page 19

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Power, Thermal, and Acoustic

5.1

Power Efficiency

One of the main features of blade servers is enhanced power efficiency. The Dell™ PowerEdge™ M910

achieves higher power efficiency by implementing the following features:

•

User-configurable power options with the M1000e Chassis Management Controller (CMC)

•

Improved power budgeting

•

Voltage regulator efficiency improvements

•

Processor 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 processor 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

5.2

Thermal

The PowerEdge M910 delivers uncompromising computing performance with a robust thermal design

that efficiently manages the server component temperatures. The M910 thermal management

algorithms use as many as 46 thermal sensors to meet the required cooling level while minimizing fan

speeds. The thermal management algorithms also take inventory of the system hardware

configuration while simultaneously monitoring the component temperature sensors throughout the

system to intelligently control system fans and throttle components when needed to maintain

desired power consumption and reliability levels. Closed-loop thermal monitoring of all 32 DIMMs aids

in minimizing chassis fan power. The M910 is designed to maintain full performance across the entire

ambient temperature operating range (10°C to 35°C).

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 the processor, IOH, and chipset temperatures within

thermal design targets



Highly optimized fan control algorithm



Base fan speeds are a function of hardware configuration and ambient temperature to

minimize airflow for a given environment.



PID control algorithms are used for both processor and DIMMs to maintain appropriate thermal

margin

PowerEdge M910 Technical Guide