DEPLOY A DATA CENTER IN YOUR OFFICE SPACE Trends for the Data Center 2015 pg.2 Use DCIM To Reduce Data Center Risk pg.4 Don t Let Desktop Systems Threaten Your Network Security pg.12 Spring 2015
Welcome! Welcome to the inaugural issue of CriticalLink, Emerson Network Power s quarterly newsletter for data center professionals. As a global leader in the development and application of data center infrastructure, we understand how your business is changing and the impacts those changes are having on your IT environments. CriticalLink is an important new vehicle for keeping you up to date on information about IT infrastructure developments that can help make your data center as dynamic as your business. It s our pleasure to share content about industry and technology trends affecting your business. We will share how infrastructure best practices can help you speed deployment of new technologies and services, more easily meet stakeholder requirements, ensure application availability and control data center costs. I hope you enjoy this first edition of CriticalLink. I invite you contact us about the articles in this issue, and to share your ideas for future coverage of data center topics. Steve Hassell President, Data Center Solutions, Emerson Network Power P.S. Please join us in celebrating Emerson s 125 year anniversary. We look forward to continuing to show our customers that by partnering with us they can Consider It Solved, and we look forward to tackling future challenges together! Six Data Center Trends to Watch in 2015 Every New Year is the time for predictions and resolutions. While the accuracy rate of predictions in the technology space are usually only slightly north of the success rate of a New Year s resolution, the thought processes involved with creating (not to mention debating/ defending) the list can be very useful. So we decided to give it a try. At Emerson Network Power, we re blessed with a large (and lively) group of passionate data center customers and internal experts from around the world. We asked these folks to reflect on their experiences and give us some predictions/trends for the coming year. We collated the responses, destroyed the names to protect the guilty, and looked for common themes. In the end, six strong themes emerged for 2015: 1. Cloud comes of age Certainly the term cloud is nothing new: Most organizations already use some form of software-as-a-service (SaaS), and many have adopted cloud (or at least cloud-like ) infrastructure components in their environments. Now cloud is poised to expand from that foothold and become an engine of innovation, with cloud providers driving that innovation as they adopt technologies, business models and practices that achieve high reliability and application mobility at the lowest possible cost. 2. Integration extends its reach With rapid changes in many markets being driven by innovation, digitization and mobility, the need for speed that integration and convergence delivers is greater than ever. As a result, integration and convergence have expanded beyond the IT stack to the systems that support that stack. In this new environment, any space becomes a self-maintaining computing space, and entire data center facilities are now being designed and constructed from integrated, prefabricated modules. Contents Six Data Center Trends to Watch in 2015 Use DCIM to Reduce Data Center Risk Pasco County, FL Gets Smart About Infrastructure 6 Five Things to Know About Data Center Downtime 8 2 4
3. Convergence goes macro Technology systems aren t the only things experiencing a convergence. The telecommunications and IT industries are moving closer together as voice and data services are now routinely consumed on the same device. This convergence will drive more standardization in the technologies used to support voice and data services and break down the silos that have traditionally existed between these two critical functions. 4. Software paves the way for more software Virtualization marked one of the most significant trends in the data center industry in the last twenty years. The impact of this development will continue to drive change for the foreseeable future as virtualization extends beyond computing to networking and storage. An interesting paradox begins to develop where application development and deployment gets much easier and faster, while understanding the underlying physical environment and dependencies becomes harder. One of the key challenges in this virtual revolution is going to be hardware management. 5. The edge gets stronger After years of consolidation and centralization, IT organizations are turning their attention to the edge of the network to improve interactions with customers and applications. As organizations grow their use of analytics, location-based services, and personalized content, edge of network facilities will become critical in achieving competitive advantage. 6. Security becomes the new availability While downtime is still a risk for data center managers, a new threat has emerged in the form of cyber security. Increasingly, data center and facility managers will have to work with their IT security teams to audit the technology and software of infrastructure equipment to ensure security and evaluate the security practices of the contractors and service providers that have access to that equipment. So what does all of this mean? In the past we ve all experienced technology changes within the data center, but now the very concept of what is a data center is changing as well. Virtualization and edge computing are erasing walls, hybrid clouds and telecom/it convergence are challenging models, and more complex infrastructure management and security challenges are causing nightmares. We re probably due for a more holistic, intelligent and integrated approach to data center design and operation, which results in a new generation of facilities that make more effective use of capital, can respond faster to changing requirements, and that enable simpler management and more accurate forecasting. For more information check http://blog.emersonnetworkpower.com 5 Top Considerations for Selecting A UPS 10 Don t Let Desktop Systems Threaten Your Network Security 12 Learn how to save 30% on Thermal Efficiency 14 Rack PDUs / Resource Gallery 15 CriticalLink for Data Center Professionals is a quarterly publication from Emerson Network Power with insights and information to help you make your data center as dynamic as your business. We invite your feedback on the publication and your ideas for future articles. Please contact us via email at: MarketingHelp@Emerson.com To contact an Emerson Network Power representative please go to: www.emersonnetworkpower.com/contactus EmersonNetworkPower.com Spring 2015 3
Use DCIM to Reduce Data Center Risk A sprawling infrastructure can add complexity to analyzing power usage effectiveness (PUE) and data center infrastructure efficiency. Utilizing data center infrastructure management technologies, such as the Trellis Platform from Emerson Network Power, can help you fully understand and manage your power consumption and develop consistent policies and practices for managing infrastructure power usage. 1. Build a Comprehensive Inventory Model Trellis Platform automates the process of creating a data center asset inventory. It visually depicts deployed assets, interdependencies, existing capacity and resources in your data center. Having a complete, automated inventory allows you to: A detailed catalog and graphical visualization of data center floor space shows racks and devices with capacities color coded for quick reference. Sophisticated inventory search capabilities and drag-anddrop asset change functions save you time and ensure consistent and standardized processes. 2. Make the Power Chain Visible When you add equipment, the system automatically updates dynamic one-line schematics, energy usage reporting and power quality monitoring and management views. You get a unified view of real-time energy consumption with historical efficiency metrics for PUE and infrastructure efficiency. 3. Increase Operational Visibility Quickly see the existing capacity of your IT systems and physical infrastructure in real-time, as well as the connections and dependencies between devices in you power chain. Match available resources to device requirements and calculate the impact of any changes on power usage. Helps you quickly pinpoint available power and cooling capacity for new IT assets and simplify change management. 4 Spring 2015 EmersonNetworkPower.com Trellis Platform complements its inventory management capabilities with an equally comprehensive view of power chain monitoring and management. This insight makes it much easier to track energy costs and see where improvements can be made. You can know exactly where inefficiencies are occurring, calculate utility costs at system and unit levels, and view the impacts of device changes across the power chain to help prevent faults and outages. Real-time data on the operating status and resource consumption of data center equipment can help you better manage energy usage and maintain availability. The Trellis Platform uses this data to provide trend analysis, so you can better determine where to place assets in relation to available capacity.
You can combine monitoring and analysis with alarm management to set energy limits by data center zone or rack to trigger alarms for the most critical issues. This reduces the amount of time spent responding to non-critical alarms, tracing their origin and fixing problems. Trellis Platform provides the real-time device operating status and trending for all facilitycritical devices, including reporting on power, cooling and environmental conditions, complete with a graphical floor plan and customizable alert system. Benefits Better calculate power consumption to enable the lowest PUE at optimal availability Understand true capacity to improve planning and resource allocation Optimize the use of existing assets to reduce energy costs and comply with green initiatives while delivering the highest level of service For more on Emerson s DCIM solution, visit: www.emersonnetworkpower.com/dcim DCIM ROI: A Detailed Look at Real-World Results Emerson Network Power asked Forrester Consulting to compile a Financial Impact study of Emerson s Data Center Infrastructure Management solution, Trellis Platform. The researchers spoke to a global financial institution customer and what they identified was a clear opportunity to improve availability and increase efficiency. The analysis showed that in a three-year period the institution gained more than $1.6 million in benefit, and recouped its investment in just 13 months. The main contributors to these results were improved system availability for customer-facing systems, greater productivity of remote management, enhanced capacity planning, and reduced energy consumption. More specifically, the bank cut unscheduled downtime by 20 hours annually across its three data centers, reduced power consumption and related energy costs, consolidated 19 servers, and were able to delay construction of a new data center. For a complete analysis of the results, go to: www.emersonnetworkpower.com/tei EmersonNetworkPower.com Spring 2015 5
Pasco County, FL Gets Smart About Infrastructure We found the SmartRow offering to be a much more affordable system aimed at the small to medium-sized business Todd Bayley Technical architect for Pasco County s IT department The Situation Pasco County, FL experienced increased IT growth through server virtualization and other applications. Facility managers sought to upgrade data center operations by adding a reliable backup system that could provide high availability, accommodate capacity growth and reduce the bottom line. And a crucial requirement deployment in a working office space, without costly and time consuming room renovations. Pasco County s new data center requirements included: Room-neutral design to utilize an existing office space that lacked ITgrade cooling and fire suppression Greater cooling capacity to support the implementation of blade servers Increased power redundancy to provide the availability needed in a backup system High-security features to support PCI compliance for credit card transactions Personnel-friendly application, with internal fire suppression and low noise The Solution The Pasco County IT department found that the SmartRow infrastructure, part of Emerson s Smart Solutions family, aligned with the facility s IT challenges and offered the cost savings Pasco County was seeking. SmartRow can be installed as selfcontained data center in almost any office space. Specific characteristics such as built-in remote monitoring and the convenience and flexibility of interoperable components made the SmartRow offering more cost-effective than competitive solutions. Its redundant rack power configuration with dual UPS systems and PDUs, coupled with temperature sensors to regulate cooling, made the SmartRow approach nearly maintenance-free. This enabled 6 Spring 2015 EmersonNetworkPower.com
Pasco County to reduce the amount of time spent on break/fix events and to redeploy IT personnel to higher-level activities. for Data Center Professionals SIMPLIFICATION FOR THE EDGE OF YOUR NETWORK THAT S THE CRITICAL DIFFERENCE. Much of the cost savings gained with the SmartRow infrastructure came from the ability to implement it without expensive room upgrades, such as adding a raised floor, upgrading the fire suppression system or installing dedicated room cooling. The solution s self-contained fire suppression system gave Pasco County the peace of mind that its personnel would be protected from an accidental fire suppression system activation while working in the same space as the computer equipment. The simple, rapid deployment of the SmartRow offering allowed Pasco County to easily add the desired backup functionality to its data center. Results Achieved savings of 60 percent over converting the space to a traditional computer room Saved $80,000 in installation costs, completing the project within four months (bid to deployment) Reduced potential fire suppression system costs by $25,000 Raised IT productivity as a result of the solution s remote monitoring system Created a data center where people could work safely and comfortably due to the SmartRow offering s internal fire suppression System and low noise factor See the SmartRow virtual walkthrough: www.emersonnetworkpower.com/smartrow SmartCabinet TM for Branches from Emerson Network Power creates a simplified path to a standard, integrated infrastructure solution for your remote locations. Emerson. Consider it Solved., Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. 2015 Emerson Electric Co. All rights reserved. EmersonNetworkPower.com Spring 2015 7
Five Things to Know About Data Center Downtime Emerson Network Power partnered with the Ponemon Institute to update its Study of Data Center Outages. Our findings provided a more comprehensive understanding of the costs of data center downtime, its root causes and, most importantly, what you can do to prevent unplanned outages in your data center. Here are five things you should know. 1. Downtime is more common than you think. 91% of respondents said their data centers had experienced an unplanned outage in the previous 24 months. 2. It s only getting more expensive. The average cost per minute of downtime has gone up 41%, from $5,617 in 2010 to $7,908 in 2013. And on average, data centers are losing $690,204 per outage an increase of $184,702 since 2010. A study of 584 U.S.-based data center professionals found that in the past 24 months, the average data center experienced 5.88 localized shutdowns 10.16 limited outages 2.04 complete data center outages which is a slight decrease since 2010 3. The most frequent causes of unplanned outages are: UPS battery failure 55% Accidental EPO/human error UPS capacity exceeded 48% 46% Cyber attack IT equipment failure Water incursion Weather related Heat related/crac failure UPS equipment failure PDU/circuit breaker failure 34% 33% 32% 30% 29% 27% 26% 0% 10% 20% 30% 40% 50% 60% 70% 8 Spring 2015 EmersonNetworkPower.com
4. The most costly root causes of unplanned outages are:! $959,000 IT equipment failure $678,000 UPS System failure $501,000 Generator failure $380,000 Accidental human error $822,000 Cyber crime $517,000 Water incursion $436,000 Inclement weather 5. Steps for prevention include: Ensure you have proper planning and resources to bring your data center back to life quickly Only 38% of survey respondents indicated that they have ample resources to get their data center back up and running if an unplanned outage occurs. Leverage best practices to prevent outages Only 36% of respondents believe they utilize all best practices in data center design and redundancy to maximize availability. Implement DCIM in your data center to reduce downtime Respondents who had implemented DCIM experienced an average outage duration of 43 minutes, versus 107 minutes for those without DCIM. 7 common behaviors and attitudes of high performing organizations 1 2 3 4 5 6 7 Consider data center availability their #1 priority even above minimizing costs Utilize best practices in data center design & redundancy Dedicate ample resources to recovery in case of an unplanned outage Have complete support from senior management on efforts to prevent & manage unplanned outages Regularly test generators & switchgear to ensure emergency power in case of utility outage Regularly test or monitor UPS batteries Implement data center infrastructure management (DCIM) High-Performing Organizations Experience Fewer and Shorter Outages Invest in new or improved equipment Updating data center infrastructure was indicated by our respondents to be the top way to prevent unplanned outages and their resulting costs in the future. Download the full study at www.emersonnetworkpower.com/ponemon Source:The 2013 Ponemon Study on Data Center Outages EmersonNetworkPower.com Spring 2015 9
5 Top Considerations For Selecting A UPS New technologies and increasing demands are causing data center managers to look to UPS solutions for efficiency and scalability in addition to availability. The considerations below will help you select the right UPS solution for both current and future needs and help optimize the performance of your data center. 1: UPS Topology UPS internal topology (configuration) determines the relationship between the UPS output power quality and incoming utility power and, ultimately, the effectiveness of the UPS at protecting against certain types of power disturbances. Topology is a primary determinant of system reliability and functionality, two key elements of availability. Historically, there have been three basic types of UPS topology: Passive Standby: While this topology gets high marks for simplicity, the limitations of the design such as the lack of power conditioning, brief power interruption during transfers, or generator compatibility make it unsuitable for three-phase applications. Line-interactive: This topology resembles passive standby, but inserts a transformer or inductor in series between the utility power source and the load. Like the passive standby topology, line-interactive can be lower cost but effective, because it supports the entire critical load during power disturbances for the duration of the battery. Power Problems Line Noise Frequency Variation Switching Transients Harmonic Distortion Under Voltage Over Voltage Power Sag Power Surge Power Outage Passive Standby Liebert NXL UPS On-line Double-Conversion: Online double-conversion topologies have emerged as the preferred topology for the data center, displacing standby and line-interactive UPS systems in network access rooms as availability requirements rise. Properly configured, it is the only topology that protects against the full range of power disturbances experienced by data center power systems. Line-Interactive 2: Availability On-line Double- Conversion To ensure your data center UPS solution can protect uptime even during multiple, simultaneous power and environmental events without forcing a switch to bypass, look for: Continuous-duty static switch: Ensures maximum fault clearing capability in case of extreme overload or downstream faults No contactors in the bypass path: Contactors are not designed for high withstand requirements Redundant fans: Provides the ability to tolerate more than a single fan failure before going to bypass High withstand rating (100kA or higher): Allows the equipment to stay online during more severe short circuit or circuit overload conditions 10 Spring 2015 EmersonNetworkPower.com
Ability to start a like-sized Power Distribution Unit (PDU) without transfer to bypass: Keeps the system on protected power when additional distribution is added 3: Efficiency While UPS power consumption has improved significantly since the days of 79 percent efficiencies, some continue to consume more energy than is necessary. Most estimates put the average efficiency at 86.6 percent- -well below the 93 percent that is achievable in newer technologies. 4: Scalability and Flexibility Power system flexibility can be provided by a new generation of power systems that are designed for simplified configuration changes and greater scalability, enabling systems to be right-sized during the design phase. Virtually every component of the data center physical infrastructure is now available in a modular design, including power systems. These modular systems are typically integrated packages of equipment and controls that are built and pre-tested in a factory environment. The shorter deployment time, combined with the capacity-ondemand approach offered by modularity, allows organizations to quickly meet fluctuating demands while managing capital expenditure costs and maintaining higher operating efficiencies. 5: Design There are a number of new technologies that expand upon the on-line double-conversion topology to lower CapEx and OpEx costs, while providing greater scalability and minimizing availability compromises, such as: Transformer-Free UPS: Offers high efficiency, smaller footprint and improved flexibility while providing high levels of availability. Capacity-On-Demand: Enables modularity within the UPS module itself, providing additional capacity through either software or hardware modules without increasing footprint requirements. Active Eco-Mode : Allows doubleconversion UPS systems to achieve the highest possible efficiencies by transferring the UPS to static bypass during normal operation. Intelligent Paralleling: Improves the efficiency of redundant UPS systems by deactivating UPS modules that are not required to support the load and taking advantage of the inherent efficiency improvement available at higher loads. 1400 1200 1000 800 750 625 600 400 200 0 800 625 and 750 upgrade to 800 kva 1000 1100 1200 1000 and 1100 upgrade to 1200 kva The ability to add capacity-on-demand, either through software or hardware modules, allows power capacity to grow easily with data center needs without additional footprint. Liebert exm UPS Read the whitepaper at: www.emersonnetworkpower.com/rightups EmersonNetworkPower.com Spring 2015 11
Don t Let Desktop Systems Threaten Your Network Security W e like to think employees are committed to maintaining IT security and abiding by privacy and security regulations. But it takes just one bad apple or someone who inadvertently downloads sensitive material from their desktop onto a thumb drive for organizations to end up with a significant loss of intellectual property, severe reputational damage and substantial fines and penalties. The importance of risk management at the network level has long been understood, but risk management at the desktop level has sometimes been an afterthought. With the growing potential for harm, it s time for risk management to extend right down to each individual s workstation. A new briefing document from Emerson Network Power discusses technologies specifically designed to manage desktop security. These technologies can help you substantially reduce risk by: Tightly controlling how users access computers Ensuring IT and system administrators monitor and manage equipment as efficiently, effectively and securely as possible. Control What the User Can Do At the Desktop The key to reducing risk at the desktop is to carefully manage user access to any computer. Using a secure desktop KVM switch is an excellent way to achieve this level of control. This hardware device can control one of the easiest and most common ways for sensitive data to be stolen or inadvertently leaked through USB devices. With a KVM switch, the types of USB devices that can be used with a target computer can be restricted. For example, the switch allows only the desktop s keyboard, screen and mouse to function on a target computer, prohibiting any other USB device from accessing the target, such as a flash or hard disk drive, camera or printer. This effectively prevents unauthorized downloads via the desktop. In addition, the switch can constantly monitor all the devices attached to it, ignoring any access attempts using an unauthorized USB device. Deliver Security with User Transparency While desktop security is growing in importance, it cannot come at the expense of making it harder for people to get work done. Sophisticated KVM switches provide multiple ports in order to support a virtually unlimited array of computers, from PCs running basic applications to high-end graphic applications, for example. With a KVM switch, users need just a single keyboard, monitor and mouse to access multiple computers. An added benefit is that organizations can reduce costs as they no longer need to buy multiple peripherals for each user. In addition, where users need access to a mix of secure and unsecured computer systems, the KVM switch provides a discrete processing path to each computer. 12 Spring 2015 EmersonNetworkPower.com
Extend Desktop Security with Remote, Centralized Management For some organizations, it may be desirable to physically separate computer systems from users and to centralize the management of desktop access and control. There are several good reasons to consider using remote centralized management to control desktop access: Reduce risk by placing computers in a secure location and by allowing multiple administrators in different locations to collaborate. Reduce costs as users still need only one set of peripherals to access multiple systems, and they can easily share computers, reducing the amount of systems that must be bought. Centralized remote management requires a high performance digital KVM switch that can deliver an at-the-desktop experience whenever users attach to a remotely located computer. This is particularly important where a high-fidelity experience is crucial, such as in control rooms for manufacturing, utilities, broadcasting and emergency response, or training/ simulation, medical diagnosis and financial trading desks. When considering managing desktop access remotely, look for digital KVM solutions that are platform-agnostic, support a comprehensive range of peripherals and ensure a pixel-perfect user experience. The Emerson Network Power Solution Emerson Network Power provides secure remote management of enterprise network and data center assets regardless of their location, state of health or brand. From data center to control room to desktops, you can trust Emerson s world class solutions to reduce risk, establish security and business continuity, protect against Intellectual Property theft and decrease downtime across the enterprise. Looking for the right KVM to support your Desktop or Rack needs? Try our Avocent KVM Selector tool! www.emersonnetworkpower.com/ KVMSelector Explore Emerson s KVM solutions at: www.emersonnetworkpower.com/kvm Avocent Universal Management Gateway EmersonNetworkPower.com Spring 2015 13
Thermal Management Best Practices and Upgrades Learn how to save 30% on efficiency in just 15 minutes Recently, some of our Emerson Network Power Thermal Management engineers toured 15 data centers that serve everything from midsized businesses to Fortune 50 technology companies. In each case they were able to identify significant energy saving opportunities up to 30% savings - by asking just a few general questions. Often, these savings could be realized with the implementation of a thermal management best practice. Below are the most common opportunities they came across. Increase the temperatures in your data center: The old standard was 72 F for return air (the mixture of air returning from computers to the cooling unit) and relative humidity at 50%. Today, you can push return air temperatures as high as 95 F. It is recommended that this be done in small increments to avoid unexpected humidity trouble and to ensure all the IT equipment is functioning properly. This can be done over a few days with little risk to applications and IT equipment. Enlist your facilities manager or vendor partners to assess the safest way to do this. Remember for every 1 F increase in temperature you will save 1.5-2.0 % of your energy costs. Raise chilled water temperatures: For data centers using chilled water, 45 F used to be the standard temperature for water in the chiller. Today, it is possible to operate chillers up to 55 F, reducing energy consumption by 20%. Every degree matters each one degree increase in water temperature reduces chiller energy consumption by two percent. It is important that you work with your facilities manager as raising chilled water set points could reduce cooling capacity in your data center cooling units. Match your cooling requirements to your IT Load: Your thermal management equipment should have variable capacity components (fans and compressors, if applicable) to adjust cooling capacity up and down with your IT load. While constant speed fans are common, they are unable to adjust to a data center s actual performance. A 10HP fan motor uses 8.1kWh of electricity at 100% speed, but only 5.9kWh at 90%, and 2.8kWh at 70%. Savings are significant (and exponential) when fan speed can be matched to the data center s actual requirements. In addition, the compressor is the highest consumer of power in a direct expansion (DX) based system. So the more you can turn it off through economization or reduce its speed through a variable capacity compressor the more energy you will save. HOT AISLE COLD AISLE HOT AISLE Use Hot or Cold Aisle Containment: Containment prevents the mixing of hot and cold air, which increases the temperature of the return air (the hot air being expelled from racks and circulated back to the heat removal equipment). Higher return air temperatures allow heat removal units to operate more efficiently. A 10 F increase in return air temperature can create a 38% increase in cooling unit capacity and an increase in efficiency. Upgrade Your Controls: New controls provide the ability to safely implement and coordinate each of the previously mentioned strategies. When new controls and variable capacity component strategies are added to the operational tweaks described previously, power consumption from cooling in a typical enterprise data center with 500kW of IT load, can potentially drop more than 50%, from 380kW to 184kW or $171,690 in annual energy savings assuming $0.1 per kw hour. That potentially can lower the mechanical PUE from 1.76 to 1.37. For more tips to increase efficiency, availability and capacity, visit: EmersonNetworkPower.com/ BestPractices 14 Spring 2015 EmersonNetworkPower.com
Are Your Rack PDUs Keeping You From Optimizing Power Management? Data center investments are sizable, and each component of the power chain from the building entrance to the rack power distribution is crucial to enabling equipment availability, efficiency and capacity. To ensure you are optimizing your data center power at the rack PDU level, consider these features: Designed for High Availability Is your rack PDU designed to operate in the high temperatures common at the back of the rack? Is it designed to optimize basic power availability? Is it easily upgraded to minimize downtime? Look for: High temperature rating Hot swappable controller card Bistable / normally closed relays Optimized Energy and Capacity Management Does your rack PDU offer accurate and comprehensive metering? Can you remotely control the rack PDU and connected loads? Is it optimized for efficiency? Look for: Metering of key electrical parameters with +/- 1% accuracy Low power consumption Easy access to reporting Simplified Integration with Management Tools A simplified approach to implementation and change management translates to real cost savings and operational advantages. Look for: IP address sharing IPv6 support Support of remote authentication protocols and encryption Compatibility with Racks and Power Chain Is your rack PDU simple to install and move? Look for: Availability in popular voltage and amperage combinations Ability to order and ship pre-installed in a flexible I.T. rack For more information about rack PDUs, visit: EmersonNetworkPower.com/Rack-PDU-Video Resource Gallery Webcasts See our recent webcasts or register at: EmersonNetworkPower.com www.emersonnetworkpower.com/webcasts Emerson Network Power Blog: Learn and be part of the discussion with experts from around the globe. http://blog.emersonnetworkpower.com Upcoming Industry Events: Visit us at the following events: Data Center Dynamics, NY March 17-18 AFCOM Data Center World, Las Vegas, NV April 19 23 BATTCON, Orlando, FL May 12-14 Uptime Symposium, Santa Clara, CA May 19-21 For more info: EmersonNetworkPower.com/Events Infographics: See our latest infographics: Emersonnetworkpower.com/ Infographics CriticalLink Online Newsletter: EmersonNetworkPower.com/ CriticalLink Social Media: www www.emersonnetworkpower.com @EmersonNetPwr www.gplusid.com/emersonnetworkpower www.linkedin.com/company/emerson-network-power www.facebook.com/emersonnetworkpower www.youtube.com/emersonnetworkpower Spring 2015 15
DESIGN A THERMAL MANAGEMENT SYSTEM THAT ACHIEVES A PUE AS LOW AS 1.05 WITHOUT WATER OR OUTSIDE AIR THAT S THE CRITICAL DIFFERENCE. Liebert DSE Thermal Management system is up to 70% more efficient than alternative technologies The Liebert DSE uses pumped refrigerant technology to minimize mechanical cooling. As outdoor temperatures fall, the system automatically turns off compressors, and pumps refrigerant for highly efficient and reliable cooling. There is no need for water or outside air and their required cost and maintenance. In addition, self-optimizing controls, variable load matching and simple, modular installation make the Liebert DSE one of the most efficient and reliable thermal management systems in the world. Emerson Network Power s Thermal Management solutions help make your data center as dynamic as your business. Learn more about Liebert DSE s innovative design in our video: EmersonNetworkPower.com/DSEvideo Emerson. Consider it Solved., Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. 2015 Emerson Electric Co. All rights reserved.