HP xw2x220c Blade manual Delivery space requirements, Operational space requirements

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At least 762 mm (30 in) of clearance is needed in the rear of the rack to provide access to components.

At least 380 mm (15 in) of clearance is needed around a power supply to facilitate servicing. For more information, see "Working space for component access (on page 14)".

Delivery space requirements

There should be enough clearance to move equipment safely from the receiving area to the computer room. Permanent obstructions, such as pillars or narrow doorways, can cause equipment damage.

Delivery plans should include the possible removal of walls or doors.

Operational space requirements

Other factors must be considered along with the basic equipment dimensions. Reduced airflow around equipment causes overheating, which can lead to equipment failure. Therefore, the location and orientation of air conditioning ducts, as well as airflow direction, are important. Obstructions to equipment intake or exhaust airflow must be eliminated.

CAUTION: Do not block venting holes in the covers or side panels. Proper airflow is required to prevent overheating of the unit.

The locations of lighting fixtures and utility outlets affect servicing operations. Plan equipment layout to take advantage of lighting and utility outlets. Do not forget to include clearance for opening and closing equipment doors.

Clearance at the front and rear of the racks must also be provided for proper cooling airflow through the equipment.

If other equipment is located so that it exhausts heated air near the cooling air intakes of the racks, larger space requirements are needed to keep ambient air intake to the racks and equipment within the specified temperature and humidity ranges.

Space planning should also include the possible addition of equipment or other changes in space requirements. Equipment layout plans should also include provisions for the following:

Channels or fixtures used for routing data cables and power cables

Access to air conditioning ducts, filters, lighting, and electrical power hardware

Power conditioning equipment

Cabinets for cleaning materials

Maintenance area and spare parts

Equipment clearance and floor loading

A clearance of 1219 mm (48 in) in front of a configured rack and 762 mm (30 in) to the rear of a configured rack is recommended. All buildings and raised computer room floors are engineered to provide a specific floor loading.

Environmental requirements 20

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Contents HP BladeSystem c-Class Site Planning Guide Intended audience Contents Conversion factors and formulas Technical support Related documentation IntroductionAbout this document HP site planning assistance General site preparation guidelinesAshrae guidelines for site planning Site planning considerations Computer room preparationPage Air conditioning system specifications Basic air distribution systemsCabling requirements Air conditioning ductsAverage floor loading Floor loadingRaised floor loading Computer room safety Installation and maintenance precautionsFire protection Fire suppressionWorking space for component access Lighting requirements for equipment servicingEnvironmental requirements Environmental elementsHumidity level Dust and pollutionMetallic particulate contamination Acoustic noise specification Electrostatic discharge preventionRecommended operating environment AshraeAirflow requirements Space requirementsBlanking panels HP Rack Airflow Optimization KitEquipment clearance and floor loading Delivery space requirementsOperational space requirements Floor plan grid Rack and accessory footprints HP BladeSystem enclosure environmental specificationsFront door clearance Environmental requirements Environmental requirements Best practices for deployment in rows Rack placement and arrangement for proper airflow Third-party racksRack tie-down option kit Electrical factors Power requirements and considerationsPower requirements Power consumption Electrical load requirements circuit breaker sizing Power quality Power considerationsFactors affecting power quality Power system protectionPower options Power redundancyNon-redundant power Wire selectionDistribution hardware Line voltage selectionGrounding requirements Grounding systemsRaceway systems electrical conduits Lahj Building distributionPower distribution safety grounding Lahj Power panel groundComputer safety ground Dual power source groundingCabinet performance grounding high frequency ground Raised floor high-frequency noise groundingEquipment grounding implementation details System installation guidelinesWiring connections Power configuration Dynamic Power CappingHP BladeSystem enclosure single-phase power configuration Data communications cablesPower requirements and considerations Power requirements and considerations Power requirements and considerations PDU installation C7000 PDU exampleC3000 PDU example HP BladeSystem c7000 Enclosure three-phase AC configuration HP BladeSystem enclosure DC power configuration HP BladeSystem c7000 Enclosure DC configurationHP BladeSystem c3000 Enclosure DC configuation Power supply specificationsSingle-phase HP 2250W Power Supply specification Specification Value Specification Value DC power supply specification Hardware specifications and requirements Enclosure specificationsHP BladeSystem c7000 Enclosure specifications HP BladeSystem c3000 Enclosure specificationsHP 10000 G2 rack specifications Rack requirementsRack-free environment requirements Configuration scenarios Example configurationsExample minimum configuration Example typical configurationExample maximum configuration Estimating power and cooling Estimating total weight Preparing for installation Preparing for installation General component placement guidelines Additional rack considerationsRack configuration software Sample installation schedule Sample checklistsIs there a completed floor plan? Delivery survey Page Formulas Conversion factors and formulasConversion factors HP contact information Technical supportBefore you contact HP Acronyms and abbreviations UPS Apparent power GlossaryKVA Index Site planning assistance from HP

xw2x220c Blade specifications

The HP xw2x220c Blade is designed for organizations that require a high-performance, space-efficient computing solution. This blade server epitomizes the commitment to enhancing data center efficiency and maximizing computing power without compromising on reliability.

One of the standout features of the HP xw2x220c Blade is its compact form factor, which enables organizations to fit a substantial amount of computing power in a small footprint. This is particularly beneficial for businesses with limited space, as they can host more servers within the same physical environment. The blade is optimized for virtualization, allowing it to handle multiple workloads simultaneously, which translates to cost savings and better resource utilization.

The server is powered by advanced Intel Xeon processors, ensuring efficient processing capabilities for demanding applications. The HP xw2x220c Blade supports multiple CPU options, allowing organizations to select the configuration that best meets their workload requirements. Leveraging Intel's latest technologies, it offers enhanced performance while maintaining energy efficiency, which is a critical consideration in today’s environmentally conscious technological landscape.

In terms of memory, the xw2x220c Blade supports high-capacity DDR4 RAM, which enhances data access speeds and ensures smooth operation even during heavy loads. The architecture of the blade also includes advanced cooling technology that optimizes airflow to maintain optimal temperatures, thereby prolonging hardware lifespan and reliability.

Network connectivity is a vital feature, and the HP xw2x220c Blade offers multiple Ethernet ports for flexible networking options, as well as support for fibre channel connections. This enables seamless integration into existing network configurations, ensuring high-speed data transfer rates that are crucial for real-time applications.

Security features are also integrated into the HP xw2x220c Blade, including options for secure boot, system integrity verification, and advanced encryption capabilities. These attributes protect sensitive data from unauthorized access and potential breaches, which is essential for organizations dealing with confidential information.

In conclusion, the HP xw2x220c Blade is a formidable choice for businesses seeking a compact, powerful, and efficient computing solution. Its combination of advanced processing capabilities, extensive memory support, flexible networking options, and robust security features makes it well-suited for a variety of applications, making it an essential component for modern data centers.
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