HP Xw460c - ProLiant - Blade Workstation Overzicht - Pagina 24

Blader online of download pdf Overzicht voor {categorie_naam} HP Xw460c - ProLiant - Blade Workstation. HP Xw460c - ProLiant - Blade Workstation 35 pagina's. Mezzanine card installation instructions for supported hp proliant c-class bladesystem servers
Ook voor HP Xw460c - ProLiant - Blade Workstation: Implementatiehandleiding (35 pagina's), Handleiding voor foutpreventie (12 pagina's), Technisch witboek (12 pagina's), Firmware bijwerken (9 pagina's), Installatiehandleiding (2 pagina's), Handleiding met veelgestelde vragen (14 pagina's), Poster opstellen (9 pagina's), Installatiehandleiding (33 pagina's), Management Handleiding (28 pagina's), Hardware Handleiding (23 pagina's), Gebruikershandleiding (33 pagina's), Handleiding voor optimalisatie (13 pagina's), Beperkte garantie (10 pagina's), Handleiding voor installatie-instructies (10 pagina's), Handleiding voor installatie-instructies (8 pagina's), Installatie-instructies (4 pagina's), Installatie-instructies (2 pagina's)

HP Xw460c - ProLiant - Blade Workstation Overzicht
minimizes fan noise. HP recommends using at least eight fans. Using ten fans optimizes power and
cooling. See the appendix for more detailed fan and server population guidelines.

Scalable

Operating c-Class server blades requires installing a minimum of four fans at the rear of the c7000
enclosure. Up to ten fans can be installed so that cooling capacity can scale as needs change. Using
more fans allows the fans to spin slower to move the same volume of air, so each fan uses less power.
Eight fans are almost always more power-efficient than four fans. As the air flow rate increases, ten
fans are even more efficient (Figure 17). Slower spinning fans also create less noise.
Figure 17. General relationship between the number of fans in a c7000 enclosure and the associated power
draw

Thermal Logic for the server blade

Precise ducting on ProLiant server blades manages airflow and temperature based on the unique
thermal requirements of all the critical components. The airflow is tightly ducted to ensure that no air
bypasses the server blade and to obtain the most thermal work from the least amount of air. This
concept allows much more flexibility in heat sink design. The heat sink design closely matches the
server blade and processor architecture requirements. For example, in the HP BladeSystem BL460c
server blade using Intel® Xeon® processors, HP was able to use a smaller, high-power processor heat
sink than in rack-mount servers. These heat sinks have vapor chamber bases, thinner fins, and tighter
fin pitch than previous designs. This creates the largest possible heat transfer surface in the smallest
possible package (Figure 18). The smaller heat sink allows more space on the server blades for
DIMM slots and hot-plug hard drives.
24