数据机房智能通风地板-说明书教学内容

中华人民共和国国家标准 GB 6650-86计算机机房用活动地板技术条件Specification for raised floor of computer room(国家标准局1986年7月31日发布 1987年8月1日实施)本标准适用于计算机机房及其他电子设备房间中铺设的活动地板。

该活动地板在计算机机房及其他电子设备房间中铺设在房屋建筑地面上作安装设备、设备的走线及空调风库空间等用。

其他类似房间需用的活动地板亦可参照此标准执行。

1 术语1.1 活动地板高度由活动地板上表面至房间地面之间的距离。

1.2 四周支承式地板支架含有横梁，地板铺在横梁上的安装方式。

1.3 四角支承式地板的四角直接铺在支撑上的安装方式。

1.4 活动地板系统电阻活动地板上表面至地板支撑底座的电阻2 结构2.1 活动地板按支撑方式分四周支承式和四角支承式。

2.2 四周支承式活动地板由地板、支撑、横梁、缓冲垫等组成，见图1。

2.3 四角支承式活动地板由地板、支撑、缓冲垫等组成，见图23 活动地板规格及型号编制方法3.1 活动地板高度分两种，见表1。

表1类型基本尺寸可调范围备注H1 200 -- ±20H2 350 地板下空间兼作风库3.2 地板幅面尺寸及尺寸公差见表2，形位公差见表3。

表2板幅类型基本尺寸极限偏差基本尺寸极限偏差A 500×500 ±0.2 20、25、30、35 ±0.2B 600×600表3类型形状公差位置公差备注A 地板表面平面度 0.3 地板相邻边垂直度 0.3B注：木质基地板参照表2表3执行3.3 型号编制方法活动地板的型号用下述方法表示。

例1：铝质基活动地板，铺设高度为200mm，地板幅面500mm×500mm，承重类型为Z，应写为：HDL·200·500·Z例2：钢质基活动地板，铺设高度为350mm，地板幅面600mm×600mm，承重类型为Z，应写为： HDG·350·600·Z例3：木质基活动地板，铺设高度为350mm，地板幅面600mm×600mm，承重类型为Q，应写为：HDM·350·600·Q4 技术要求4.1 活动地板电性能在温度为15～30℃，相对湿度为30%～75%时，活动地板系统电阻值分为两级，见表4。

数据机房智能通风地板ADU 4600操作手册上海风科电气有限公司2010年11月份制概述地板冷却的新方案随着高密度机房设备、虚拟化和云计算的不断增长，数据中心的冷却基础设施必须能够适应更高的要求、向变化频繁的热负荷提供更卓越的能源效率。

谙能认识到数据中心的机柜高密度化、热载荷的多变化的挑战性，开发了一系列高效益和节约能源的解决方案，提高了投资回报和降低了运营成本，向新建或改造数据中心的业主提供极具吸引力的方案。

地送风解决方案直送风导向型送风地板能有角度的将冷风导向机柜，几乎消除送风旁流，因而显著的节省能源。

可变风量的EC风机直接将风送向机柜热负荷，并根据安装在机柜上的传感器监测装置作出实时反应。

带风扇的协助模块，向已经安装了高架活动地板的业主提供了改造的方案，应对高密度机柜的使用无需投入大量资金进行地面设施的改造。

面对新技术的引进所带来的挑战，数据中心的技术和基础设施的不断发展，谙能的高架活动地板的设计理念中引入新的思路，考虑到极端的高密度机柜的使用、频繁变化着的热载荷的冷却，以及投资的经济性。

谙能的产品能满足这些挑战。

最重要的是，地下的冷却解决方案可以很容易地适用于机房设施的改造及新的建筑中去。

因此，对于如何解决数据中心的冷却问题提供了新的视角。

产品系统结构ADU4600主要指标地板型号：ADU4600下部支架结构：激光焊接横梁固定系统设计荷载：1000Kg安全系数：>2滚动负载情况描述保持10000次滚动通过750Kg以上冲击负荷：70Kg送风量：5200m3/h （考虑噪音，一般建议设定4600m3/h) 送风获取率：93% 以上风量与机柜功耗对应关系ADU4600的安装与设定地板的安装安装效果示意图传感器的安装1）请注意传感器安装位置：确保传感器安装在服务器的进气端。

气流方向应该和服务器排气扇的气流风向一直。

2）一般在一排服务器安装温度传感器时，采用以下方式分布传感器的位置：地板安装和横梁系统匹配一配合硫酸钙地板的安装安装过程中，地板的支架系统必须和地板相配。

机房应用配风地板系统实现动态制冷解决方案机房是一个非常重要的环境，用于托管和运行各种服务器和网络设备。

这些设备通常会产生大量的热量，在没有适当的冷却措施的情况下，可能会导致设备过热，降低其性能和寿命。

为了解决这个问题，机房应用配风地板系统实现动态制冷是一个有效的解决方案。

一、什么是机房应用配风地板系统？机房应用配风地板系统是指在机房地板下使用专门设计的通风口和通风管道，以提供冷空气并将热空气排出。

通过这个系统，冷气可以直接通过机房设备周围的通风口供应，并排出热气，从而保持整个机房的温度和湿度在合理的范围内。

二、为什么选择机房应用配风地板系统实现动态制冷？1.有效性：机房应用配风地板系统可以将冷气直接供应到机房设备周围，确保冷却效果最大化。

与传统的冷气供应方式相比，这种方式可以更好地控制机房的温度和湿度。

2.灵活性：由于机房设备数量和布局通常会发生变化，机房应用配风地板系统可以根据实际需要进行灵活的调整和扩展，以满足不同的布局和设备需求。

3.节能性：由于机房应用配风地板系统能够直接将冷气供应到设备周围，从而减少了气流的浪费。

此外，这种系统还可以使用动态制冷技术，根据实际的热量负荷进行调整，以降低能源消耗。

4.可靠性：机房应用配风地板系统支持冗余设计，可以防止因一个通风系统故障而导致的机房温度过高。

这种系统还可以通过传感器监测温度和湿度，从而及时调整制冷措施，确保机房的稳定工作。

三、机房应用配风地板系统实现动态制冷的关键要素1.物理布局：需要合理规划机房的布局和设备的位置，确保冷气能够有效地供应到设备周围，并将热气从机房排出。

2.通风口和通风管道：需要选用适当的通风口和通风管道，以确保冷气能够平衡地分布到整个机房，避免冷热区的出现。

3.动态制冷技术：需要使用传感器监测机房的温度和湿度，并将这些数据传递给系统控制器。

系统控制器会根据实时的热量负荷情况，自动调整冷气的供应量和温度，以达到最佳的制冷效果。

数据机房下送风架空地板施工工法数据机房下送风架空地板施工工法一、前言在现代信息化时代，数据机房的建设越来越重要。

为了保证服务器等设备的正常运行，数据机房需要保持适宜的温度和湿度。

因此，在机房的建设中，空调系统起着至关重要的作用。

下送风架空地板施工工法是一种有效的空调系统施工工法，本文将介绍其特点、适应范围、工艺原理、施工工艺、劳动组织、机具设备、质量控制、安全措施、经济技术分析和工程实例。

二、工法特点下送风架空地板施工工法是利用架空地板将冷风送入服务器机架的一种施工工法。

其特点包括：①空调系统布置灵活，易于调整和维修；②避免了冷风直接与热源接触，减少冷风的浪费；③降低了服务器机架堆叠的高度，方便维修和保养；④减少了机房内部的管道和设备，提高了机房的整体美观度。

三、适应范围下送风架空地板施工工法适用于具备以下条件的数据机房：①机房的设计和建设需要考虑到散热和通风的要求；②机房内部的布局相对较为规整，容易进行构建；③机房所需容量较大，有一定的规模。

四、工艺原理下送风架空地板施工工法是将冷风通过架空地板输送到服务器机架区域，实现散热和通风的效果。

其工艺原理是通过凯氏效应使冷风在地板孔隙内流通，降低机房内部的温度。

其中，冷风由空调系统产生，通过风管进入架空地板底部，然后通过地板孔隙进入服务器机架区域。

五、施工工艺下送风架空地板施工包括：①清理施工区域；②确定架空地板的位置；③安装风管和风口；④设置支撑架和固定架空地板；⑤施工完工检验。

六、劳动组织下送风架空地板施工需要组织工人进行施工，工人要具备相关的电气和通风知识，以确保施工过程的顺利进行。

七、机具设备施工中所需的机具设备包括风管、风口、支撑架、吊索等。

风管用于连接空调系统和架空地板底部，风口用于引导冷风进入地板孔隙。

八、质量控制为了确保下送风架空地板的质量，需要进行严格的质量控制。

包括施工前的检验与验收、施工中的现场检查与监控、施工后的整体性能测试与评价。

DC Inverter3SLF 400SLF 600SLF 800895 mm1,21 kWL1095 mm1,62 kWL1295 mm2,12 kWL431m m189 m mLFiloterra the floor fancoil able to generate a thermal comfort air barrier.In many architectonical situations, especially rooms with ceiling windows or very exposed walls, it is important to counteract the summer heat that is transmitted by radiation inside the rooms or the annoying cold currents that are formed in winter on the walls.Traditional solution, such as the air conditioning units installed in front of the windows, are often not compatible with the design of the rooms as well as being certainly less effective.3 different size189mm of heightThree modelsDC INVERTER Thanks to the most modern DC Inverter technology, Filoterra has very low power consumption and perfect operational stability.SILENTWINDOW OPEN ETHERNET / DOMOTICS As with all INNOVA products, Filoterra provides perfectly quiet operation.The “Window open” input allows the terminal to switch off automaticallywhen the window is opened and switch on again when the window is closedFiloterra can be integrated into the most modern and complicatedremote management systems thanks to advanced electronics that can be interface easily with the most popular home automation systems.THIN Extremely thin (only 189 mm), itdisappears inside the floor.MODULATED AIR FLOWThanks to the use of modulating motors, the problems of standard on-off products are avoided: the modulated airflow becomes imperceptible and is never disturbing.CONTROLSSmart Touch controls of the highest aesthetic and functional level.Possibility of management through the INNOVA App, also remotely, via Wi-Fi.EASY TO INST ALL AND TO BE CLEANEDFiloterra is characterised by its reduceddimensions and extremely compact design. With the same power output, the installation dimensions are considerably smaller,minimising the visual impact of the grille onthe floor.BUTLER,the advance control.The BUTLER PRO web server is the system that INNOVA has developed to control an entire winter and summer air conditioning system from a local and remote network.BUTLER PRO allows you to connect the heat pump, controlled mechanical ventilation system, fan coils and all the other system elements via a serial connection.BUTLER PRO is complete, simple and intuitive at the same time: you can configure a weekly calendar with time zones, create specific zones and change the settings so your home is at the right comfort level for your needs.PC locale DisplayBUTLER PRO TOUCH con display integrato BUTLER PRO via WEBMobile o tabletROOM-BASED CONTROLTWO VERSIONSYou can control each room with BUTLER by configuring a weekly calendar with time zones, creating settings for each room or area, modifying the settings so your home is at just the right comfort level for your needs.BUTLER PROsettings and display via smartphone / tablet / computer only withinternet connection. Installation on a 35 mm DIN rail in the electrical cabinet of the heat pump or in the electrical cabinet of the house.BUTLERPRO TOUCHsettings and display via the integrated 10” touch screen.Can be connected to the internet remotely via smartphone / tablet / computer. Recessed wall installation.The pre-installation box is suppliedseparately.A barrier of air that contrasts and neutralizes summer heat and cold currents.Filoterra is INNOVA’s range of DC Inverter floor-recessed fan coils, capable of generating a true air barrier that, when touching exposed windows or walls, neutralises the negative effects on thermal pared with standard solutions already on the market,Filoterra is characterized by more compact design and lower dimensions, therefore with a smaller footprint with the same power supplied.Metal casing for built in installationFancoilFloor cover grillBAMAIN FUNCTIONS•Supervision and control through local network or remotelyThe system can be managed through a smartphone, tablet or computer•Summer and winter personalised programming Different programmes can be set for each season •Setting of three temperature levels on the INNOV A fan coil networkFor each room or zone it is possible to select 3different work temperatures, which can be modified at any time•Weekly time programmingIn each room it is possible to set different operating times•Etwork interface like the one on PCsOnce the bus network between the heat pump and the fan coils has been made, he connection with the Web server is the same as that of a normal computer•Remote assistanceWith the user’s consent, BUTLER can automatically access the INNOVA cloud for diagnostics and assistance in case of needDOMESTIC HOT WA TER SETTINGWEEKL Y SCHEDULINGRemote assistanceWith the user’s consent, BUTLER can automatically access the INNOVA cloud for diagnostics and assistance in case of need.Thanks to the Internet connection, it is possible to verify remotely thecorrect operation of INNOVA products connected to the BUTLER.Any operating anomalies can betransmitted automatically from the BUTLER to the assistance centre which can in-tervene by modifying the functional parameters or decide to physically intervene by providing a quick and timely service.The advantage ofchoosing a complete INNOVA system is that, for any need, we are the only reference both for routine maintenance and for assistance purposes. A complete and high quality service.Models and product combinationsEGB749IISLF 800SLF 800SLF 600SLF 600SLF 400SLF 400L00749IIDR0752IIL00750IIDR0753IIL00751IIDR0754II895 mm 890 mm LL1095 mm 1090 mm LL1295 mm1290 mm LL427 m m431 m m30 m m189 m mLLModel and codesThe floor covering grid is walkable and is designed for perfect coupling with the recessed formwork of the same size. It consists of a removable grid for cleaning the air filters and a fixed deflector for the distribution of the air flow in the environment. The grill is easily removable for a quick and complete maintenance of the appliances. Hydraulic connectionsFloor covering gridAccessory consists of a galvanized sheet metal casing designed to be inserted into the floor and in which to house the terminal. This device is equipped with the pre-cuts necessary for the passage of the hydraulic pipes and for the electric cables. The structure iscoupled to the built-in coverage grid described below. Positioned during building work, it makes it possible to prepare the plumbing and electrical connections for later installation of the terminal.DescriptionDescriptionModel and codesInstallation accessoriesMetal casing for built in installationFILOTERRAModelsu.m.400600800(1) Water temperature at battery inlet 7 °C, Water temperature at battery outlet 12 °C, Ambient air temperature 27 °C b.s. and 19 °C b.u. (accor-ding to EN 1397)(2) Water temperature at battery inlet 45 °C, Water temperature at battery outlet 40 °C, Ambient air temperature 20 °C b.s. and 15 °C b.u.(according to EN 1397)(3) Sound pressure measured at a distance of 1 m according to ISO 7779Technical data sheetsCREDITSProduct DesignerLuca PapiniArt Direction & GraphicOsmo Design PhotographyOttavio TomasiniSpecial thanks to:Akira Nishikawa© All rights reserved - photographs, images and texts are protected by copyright, any use of all or part of them not expressly authorisedby INNOVA will result in consequent sanctions. 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智能机房建设方案l智能机房整体设计方案大致包括如下内容：l机房总体规划l机房装饰l机房供配电系统l机房空调及新风系统l机房防雷及接地系统l综合布线及系统集成系统l机房屏蔽系统l消防报警灭火系统l安防工程系统l环境集中监控系统机房设计是网络建设整体方案的重要组成部分，对网络运行的安全稳定起着至关重要的作用。

其设计思路是：一、机房设备1、机房空调机房空调设备在主设备间40平米以上，设备操作间20平米左右，温度、湿度达到B级，空气含尘浓度每升空气中大于或等于0。

5μM的尘粒应少于18000颗粒（空调系统正常运行，室内没有生产人员）的条件下，选用恒温恒湿空调。

2、机房配电系统机房配电使用可靠的供电线路，动力照明、办公设备、空调设备不与计算机、服务器以及通讯设备相连。

动力照明，办公设备可以使用市电220V的动力线供电，空调供电根据设备选择情况使用380V或220V。

通讯设备使用UPS供电。

机房供电系统是机房建设中最重要的方面，是机房安全、可靠运行的基础。

电子计算机机房供电系统综述电子监控机房的用电负荷等级和供电要求应满足《供配电系统设计规范》GB50052－95，其供配电系统应采用电压等级220V、380V，频率工频50HZ或中频400HZ～1000HZ的TN－S或TN－C－S系统，电子计算机的主机电源系统按设备的要求确定。

电子监控机房供配电系统应考虑系统扩展、升级的可能，并应预留备用容量。

计算机电源系统应限制接入非线性负荷，以保持电源的正弦性。

照明照度是监控机房电气设计中十分重要的环节，也是保证计算机操作人员工作环境的重要指标，机房照度标准的取值应符合下列规定：1）主机房的平均照度可按200、300、500L取值。

2）基本工作间、第一辅助房间的平均照度可按100、150、200L取值。

3）第一、第二辅助房间按现行照明设计标准的规定取值。

机房照度标准的取值应符合下列规定：间歇运行的机房取低值；持续运行的机房取中值；连续运行的机房取高值；无窗建筑的机房取中值或高值。

www.eaton.eu/data-centre-managementModern businesses need a better response to ever-changing market dynamics and competitive pressures. Scalable, flexible software-defined IT infrastructures are rising up the agenda in the endeavor to improve business continuity, increase data centre agility, resilience and operational efficiency, and deliver more efficient ways of managing assets.IT managers are looking for new tools that will carry their management capabilities up the technology stack and beyond the data centre walls so that they have complete intelligence and control of how the data centre is serving the needs of the business.Effective and timely data centre monitoring and management has never been a straightforward proposition. Technologies age rapidly, workloads grow exponentially, and the business needs of organisations change unpredictably. Every data centremanager knows that the realities of theirrole demand constant and concentratedthought in order to optimise data centreperformance and anticipate a constantsuccession of challenges. Challengessuch as a mix of hardware and softwarefrom multiple vendors, the frequent lackof co-ordination between Facilities and ITmanagement, and the tendency for datacentres to evolve as a collection of siloes.Such challenges and the risks they bringare becoming more pressing in the eraof software-defined and cloud-orientedoperations. So too are the changes andchallenges inherent within data workloadsthemselves, which require correspondingresponses from the physical infrastructureif tasks are to be completed successfully.Now more than ever, there is an urgentneed for a clear, holistic, single view ofthe whole infrastructure across theoperational, physical and virtual/cloudlayers of IT applications.The IntelligentInfrastructure Solution By bringing together an innovative mix of hardware andsoftware, Eaton offers intelligent integrated solutions helping data centre and IT professionals ensure that their data room´s physical infrastructure is reliable, operational performance optimal and continuity of the business is well secured.Eaton offers you a 3 layer solution architecture helping close a gap between the physical infrastructure and IT and ensure the integrated approach to the data centre monitoring and management.MANAGEMENT &MONITORINGOPTIMISATIONINTELLIGENTINTEGRATION INSOFTWARE DEFINEDDATA CENTRESCONTROLVIRTUALISED COMPONENTSExposing the infrastructure state to uppervirtualisation and cloud orchestrationlayers:• Single plane of glass approach• Automated disaster preventionOPERATIONALCOMPONENTSIT-centricmonitoring:• Power• Space• Environmentalmonitoring PHYSICALCOMPONENTSPower andcapacity devices:• UPS• PDUs• IT racksThe modern data centre challengeEaton´s integrated 3layer solution for ITrooms and data centreshelps close the gapbetween the physicalinfrastructure and IT.Eaton´s integrated infrastructure solutionsfor software-defined data centresEaton ePDUs: intelligent power distribution andmonitoring in IT racks1. Physical componentsA physical infrastructure must be robust and reliable enough to ensure high uptime of IT applications and data integrity without compromising efficiency.Power protectionEach IT appliance requires power. The demand for power in IT applications accelerates following the deployment of modern technologies such as virtual servers and converged and hyperconverged infrastructures. Virtualisation’s impact on power demand is two-fold. First, everyphysical server needs more power. Virtualised machines (VMs) run at 70% to 80% capacity, compared to just 10 – 15% for an unvirtualised machine. This significantly increases power density per enclosure. Secondly, virtualisation allows applications to move from one server to another at a moment’s notice, instantly shifting the power demands within existing infrastructures and highlighting the need for flexibility.IT teams must allow for the fact that in modern IT environments, demand for computing capacity, and therefore power, is dynamic with workloads, applications and storage moving within and among data centres as business needs dictate. To reach peak operating efficiency while avoiding the risk of power outages, developing a sophisticated power protection strategy and integrating it with the ICT infrastructure is essential.With these needs in mind, Eaton offers a range of Energy Star qualified high efficiency UPSs which suit different IT applications and installations and are compatible with virtualisation environments.Power distributionWhile UPS protects your IT application from power outages, power distribution ensures that the power from the UPS is distributed between the IT appliances you have in your rack. Modern power distribution units can also help optimise ITefficiency, lower costs and improve business continuity. The next generation of Eaton’s advanced rack PDUs (ePDU G3) incorporates monitoring and management capabilities. So, in addition to distributing power from the UPS to your IT appliances safely and efficiently, modern distribution units will let you monitor and measure power consumption in an IT rack, remotely shut down power during an outage, and help initiate disaster recovery policies.IT equipment organisationRacks and enclosures are among the first pieces of equipment deployed in a data centre or server room and you should make sure you house your IT appliances properly and efficiently. Appropriate cable management and storage accessories are important for keeping racks neat and well organised, and aircontainment configurations ensure optimised cooling in your data centre. Ensure you have the optimal housing solution for your IT appliances with Eaton’s comprehensive range of IT racks and airflow containment configurations suitable for different applications to lower costs and improve the safetyof your work environment.Eaton IPM Infrastructure - main product functionalityPower Chain monitoring IT Asset Management Holistic reportingEnvironmental monitoring2. Operational componentsEaton ePDUs mounted to the back of the rack monitor power usage to +/- 1% accuracy for sub-billing and cost allocation while environmental sensors are attached to the front of each rack to monitor air intake temperature as well as temperature and humidity levels within the site. Paired withEaton´s Intelligent Power Manager Infrastructure solution consisting of IPM Infrastructure software and Intelligent Power Controller appliance, they revolutionise the overall management of data centres.The IPM Infrastructure solution can easily integrate into the current data centreinfrastructure and allows you to understand and monitor power, space and environmental capacity within the context of your IT infrastructure in order to plan change, anticipate challenges, and make intelligent decisions that ensure business continuity and optimise the IT equipment life span.IPM Infrastructure has an intuitive user interface, with drill down navigation capability and capacity management tools making it simple for IT administrators to understandthe impacts on and interaction between their power infrastructure and their ICT applications.The solution builds upon an open source software project called 42ITy ( ). The open innovation process of allowing community members to make use of, and contribute to Eaton work, helps Eatongive you a system that can communicate withequipment from many vendors.3. Virtualisation componentsEaton Intelligent Power Manager (IPM) software is a separate software solution that can be deployed alongside IPM Infrastructure, complementing its IT -centric visibility andmonitoring capabilities. It enables tight power integration into the leading virtual machine management systems, including VMware® vCentre™, Microsoft SCVMM™, Citrix XenCentre™ and RedHat KVM. This means that status data for all UPS and PDU power devices in the virtual network can be viewed and managed together with network, physical server and storage information – all from a single pane of glass.This helps to ensure business continuity as you can make decisions informed by both power and IT equipment status. Reactions can be faster and automated disaster recovery policies become more effective.During utility failures or environmental events, affected ITdevices, both virtual and physical, can be shut down gracefully and automatically, saving work in progress and preserving dataintegrity. Alternatively, virtual machines can be migrated to other locations or failover sites to keep business moving. The Intelligent Power Manager solution has an intelligent load shedding feature which can suspend non-critical virtual machines, increasing system uptime while extending battery runtime and minimising the generator load.IPM’s other features include power capping on demand, which helps keep critical workloads running longer during a power outage by limiting the server power consumption. This can yield gains of up to 200 per cent runtime with the same number of UPS battery modules, when paired with policy based load shedding.In addition, Intelligent Power Manager exposes power chain and environmental health information to cloud orchestrators and management systems such as OpenStack and VMware’s vRealise Operations platform. Intelligent Power Manager integrates with OpenStack via a REST API and an OpenStack Nova scheduler filter, enabling OpenStack to ensure power optimised virtual machine (VM placement). Similarly, Intelligent Power Manager provides real-time visibility of power chain and environmental status to vRealise Operations via it’s REST API so that powerchain and environmental status are factored into overall system health and risk analysis.This integration between the physical infrastructure and thevirtualisation layers enables automation of disaster prevention and recovery policies to remove the potential for manual error when your team is acting under the time pressure of a power event.In SummaryVirtualisation, cloud computing, and related technology trendsmean that now more than ever the data centre is a focal point for the effectiveness of organisations across almost every industry sector. Increasingly, if the data centre fails, the business fails.Eaton’s intelligent infrastructure solutions are built for this world, transforming the physical data centre infrastructure from a siloed black box into a dynamic source of intelligence so that IT and data centre managers can see their data centre within the context of the organisation it serves and perform their role more effectively.VSPEX L ABSVALIDATEDVM VM VM VM Failed Server Operating Server Operating ServerVM VMEaton has the broadest industry alliance partner network in the industry. We work closely with leading IT vendors to pre-validate our solutions and create reference designs that shorten deployment times and reduce uncertainty.IPM helps maintain business continuity during power failures by triggering an automatic migration of virtual machines to unaffected parts of the network or to an off-site backup facility, co-location data centre or cloud computing infrastructure.Changes to the products, to the information contained in thisdocument, and to prices are reserved; so are errors and omissions. Only order confirmations and technical documentation by Eaton is binding. Photos and pictures also do not warrant a specific layout or functionality. Their use in whatever form is subject to prior approval by Eaton. The same applies to Trademarks (especially Eaton, Moeller, and Cutler-Hammer). The Terms and Conditions of Eaton apply, as referenced on Eaton Internet pages and Eaton order confirmations.Follow us on social media to get the latest product and support information.Eaton Electric Ltd 270 Bath RoadSlough SL1 4DX, UK /UK© 2018 EatonAll Rights ReservedPublication No. BR152023EN / CSSC - 980Article No. Intelligent infrastructure for software-defined data centres brochure Rev A - UK version February 2018Eaton is a registered trademark.All other trademarks are property of their respective owners.。