InterXion Holding NV (INXN.N) Company Profile | catchsomeair.us
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By contrast, millennials have been frontline adopters of so much of these innovations because they have little, if any, remembrance of the technologies they have replaced. The same is true for storage.
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They have experienced the shift from monolithic physical IT infrastructures to mixed physical and virtual environments. Now, they have to contend with the emergence of cloud and the prospect of a mixture of private and public cloud, on-premise and hybrid environments. For Generation X, the changes have been less profound as they adapt to the new waves of innovations because they have been more involved in the development of modern technologies that aim to help organisations, not hinder them.
As for millennials, they have taken it a step further by driving changes and advancements in technologies, such as self-service and automation. The challenge for IT administrators is to implement innovative solutions that can satisfy all three generations.
From a storage point of view, this means centre of attention being able to manage and protect mixed environments composed of physical and virtual assets and equipment from multiple vendors. In terms of data protection and recovery, technology needs to be optimised for lightning fast recovery in heterogeneous environments and to deliver failover and failback between dissimilar hardware.
Modern solutions should also enable organisations to be more flexible with their data storage and recovery.
IT administrators need to adapt to a technology environment that has moved beyond the traditional approach to storage infrastructure and provide features that can intelligently move, store, protect and analyse data without burdening production resources. To satisfy those requirements, administrators need to keep IT services up and running by moving, storing and protecting vital business information while enabling data movement and multiple uses of stored data.
Storage virtualisation, data protection and recovery solutions have to be flexible and scalable, they need to be adaptable to any size data centre, using any combination of physical and virtual servers and a wide variety of storage hardware.
The business landscape consists of a mixture of baby boomers, Generation X and millennials, and the technology that underpins it reflects that. Different generations of technology innovation are mixed and blended together to deliver the best solution for business.
As president of Equinix Europe, Eric oversees the management, strategy, and growth for Equinix in Europe. What are the biggest changes you have seen in the data centre industry? In less than 20 years, the data centre industry has gone from being comprised of dozens of niche providers, to the domination of a small number of major global players.
The dynamics of the relationship between data centre providers and their customers have also changed significantly. Enterprises are looking for far more than data hosting — they want relationships with a partner that gives them the edge over their competitors.
The industry culture has also changed. Now we even have publications and magazines like DCN dedicated solely to data centres! Just 10 years ago, government was paying very little attention to the industry — now we see governments actively courting data centre developments and installations because they understand just how much they contribute to the digital economy. What is the main motivation in the work that you do?
There are two things for me. The first is the strategic challenge of building a business in a rapidlychanging digital environment. With so many factors affecting us — from constant regulatory changes, to technological innovation leading to increased data consumption — to help build one of the most successful companies in the industry is a huge accomplishment that gives me a great sense of pride. In addition to earning a living, how else has your career created value in your life?
Not only has Equinix given me a sense of purpose and a huge drive to succeed, it has broadened my horizons and given me the opportunity to live and work in Europe. One of my favourite things to do in my spare time is studying anthropology and history, and I find the cultural complexity and historical richness of Europe fascinating.
Living in The Netherlands has given me the opportunity to experience life in a different part of the world and to learn from the many different cultures across Europe. What part of your job do you find the most challenging? What are the biggest pressures involved in your job? One of the biggest pressures is staying connected with everyone as the company gets even larger.
Equinix, like any company, is built on personal relationships, people working together, and being committed to a common goal. As the company expands, it becomes more and more important for me to stay connected with everyone across the business and make sure we remain aligned and focused on the job at hand.
What is the toughest lesson you have ever been taught in your career? What gives you the greatest sense of achievement? When I inspire someone to pursue a new idea. If you could possess one superhuman power, what would it be and why? Definitely the ability to function without sleep! Imagine all the things you could get done! People with poor presentation skills!
You spend so much of your time in meetings and presentations in business — listening to people reading verbatim off a slide long deck really does drive me crazy. I feel like everyone should have proper presentation training and be able to deliver a presentation that engages your audience. Where is your favourite holiday destination and why? I may have moved across the pond, but I have to say that one of my favourites holiday spots is still the southern United States, specifically the east coast of Georgia.
Savannah is also supposedly one of the most haunted cities in the U.
D ata Centres purchase uninterruptable power supply UPS systems because they have a critical load that requires clean, continuous power. Although reliability is a key factor in power protection system design, the main purpose of the UPS is to maintain availability. Power protection systems must be available every second of every day, therefore maximising system availability must be the overriding objective of any system installation.
Various elements of system design can affect availability, including the technology and configuration employed. Whilst transformer-less technology has become mainstream today, the 18 December market is increasingly moving towards implementing modular UPS design. Mid-range three phase modular systems are the fastest growing market. This is because, properly configured modular systems simultaneously maximise load availability and system efficiency.
In the future, we anticipate flexible, modular systems will increasingly replace traditional stand-alone and parallel systems due to the drive for high availability, fast repair and commonality of parts, as well as reduced system footprint. The fact is that a UPS system can be extremely reliable, but when a fault eventually does occur, then the system can fail completely and lose load power or transfer to bypass, leaving the critical load vulnerable on raw mains.
A simple power cut could then compromise availability, leaving the data centre without critical power. A different approach Modular systems offer an alternative approach. They have a single frame, containing a number N of power modules, all operating together and sharing the load equally between all modules. UPS customers are not affected, staff can keep working. Each module contains all the power elements of a UPS — rectifier, inverter, static switch, display — and critically — all control and monitoring circuitry, unlike other current designs that have a separate, single static switch assembly and separate intelligence modules.
The single, separate static switch module as used in some of the most common modular systems, is of most concern as all load power must pass through it, whether the system is on inverter or on static bypass — it becomes a single point of failure. A further issue with some existing modular designs is that the synchronisation, current sharing and control communication between the different power modules, intelligence modules and static switch modules are at risk of disruption by a failure in any one of many components within the communication loop.
Maintenance Regardless of the UPS purchased, the system must always be in peak operational condition. Because all systems contain both electrical and mechanical components which degrade over time, it is essential that they receive routine preventative maintenance inspections. For example, if sites do not have regular maintenance checks, capacitor failure can be a very real risk.
In years gone by, you would see a capacitor fail catastrophically a few times a year.Interxion's London Data Centre Tour
Customers often question us as to why we are so keen to do this? I recently conducted a controlled experiment in a safe, cordonedoff outdoor space to show what happened as we slowly applied a DC voltage to an old capacitor. In this way, we were able to replicate what happens when a system is starting up. At a value well below the normal operating voltage, the results were quite dramatic.
Not something you want to happen on a customer site. The good news is that when it comes to modular systems such as CumulusPower, maintenance is made much simpler.
A module can easily be removed from the UPS frame, while leaving the remainder to support the load.
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In our fast moving world, future-proofing systems is one of the greatest challenges faced by systems designers. A further advantage of modular UPS systems is that they can be quickly and easily reconfigured to adapt to changes in load requirements over time. This not only ensures the highest efficiency is maintained, but more importantly it guarantees availability of power protection whatever the future holds. With the introduction of GDPR looming, much of the discussion has been about data breaches and the subsequent punishments for businesses.
W ith increasing amounts of data, and an additional focus on data protection and preventing data breaches, security is becoming an ever-important consideration for data centre operators. The legislation will also remain in place when Britain leaves the European Union.
Whilst the spotlight of such breaches is often focused on security, there is another critical threat to data centres — power.
Perhaps more concerning for data centre operators, the scale and regularity of supply issues are increasing, which is noticeably visible across the news. A recent major global computer system failure triggered by a power failure, for instance, caused cancellations and delays for thousands of passengers of a leading airline — whilst also putting critical data at risk.
With data centre energy consumption set to rise dramatically over the next decade — with experts predicting that such facilities will require almost three times as much energy over that period — companies simply cannot run the risk of any unnecessary downtime.
A powerful solution It has, therefore, become increasingly clear that data centres must have measures in place to secure facilities.
A bespoke-engineered smart solution that can supply a stable level of electricity whilst reducing electricity consumption and CO2 emissions, will effectively mitigate any risk and ensure a sustainable future for businesses. To avoid any power quality supply issues such as blackouts, brownouts, voltage spikes and dips, critical facilities, such as data centres, must also have a secure, responsive and reliable backup power or Uninterruptable Power Supply UPS functionality.
UPS Whilst serving a critical purpose for data centres when outages strike, traditional technologies such as combined heat and power CHP units or generators are both ageing systems in a modern connected world.
Even though they offer sufficient backup power, such processes are failing to meet the requirements of the digital era. In a world where messages can be transferred almost instantaneously, CHP or generators do not have the capacity to instantly allow power to be provided for a facility, such as a data centre, when required. A new solution A more modern solution for providing UPS has come to the forefront — battery-based energy storage technology.
Already in operation in many data centres around the world, the technology provides a host of UPS benefits. In essence, the solution provides an up-scaled version of what you would find on any chargeable electrical device, with the charge coming from the National Grid or ideally, renewable sources.
It can then discharge energy almost immediately to a facility, when required, providing a vital electricity supply for a period of up to two hours. For data centre managers, the benefits of energy storage are abundant.
By continuously measuring and monitoring the electrical supply to a facility, the integrated solution recognises when support is required, such as when blackouts or brownouts occur, and provides additional energy to ensure no outage occurs.
This is particularly important for data centre sites that require a constant energy supply to critical equipment, such as computer systems, servers and storage subsystems. The flexibility of the technology ensures it can understand the fluctuating needs of any site, with scale increased by additional batteries if required.
Energy storage is not simply a scalable UPS solution; the technology also has further energy saving benefits available which have been realised by a host of high-energy use sites, negating rising energy costs and making grid contracts readily available for users.
In the past, faced with such charges, some sites simply switched off energy use during these peak times. By using energy storage technology, data centres can instead switch to a cheaper stored energy supply when necessary. A similar process can also be carried out to counter Triad charges. Even though Triad periods are not known in advance, unlike DUoS, the large amount of historical data and other techniques makes it possible to accurately predict the events and utilise stored energy during intervals of highest demand.
Using energy storage, data centres can also take part in Demand Side Response DSR contracts, in which the National Grid pays end-users for reducing electricity demand, alongside providing support on the grid. As storage technology is connected to the National Grid, batteries can provide instant discharge when the grid requires support.
As a result, a bespoke-engineered solution will ensure businesses successfully respond to the majority of all DSR events. As data centres become increasingly important, it is vital that these facilities have bespokeengineered energy solutions that can both provide UPS functionality and also assist businesses in avoiding ever-rising energy costs. Battery-based energy storage technology provides a broad range of benefits to data centres including scalability, future security and a host of financial benefits.
Until recently, the adoption of lithium-ion batteries in the UPS market was restricted to very specific installations due to their high price. But today, the price of lithium-ion, compared to other battery solutions, has fallen significantly, making it an increasingly popular option for data centre operators.
What sets lithium-ion batteries apart from VRLA types? Essentially, lithium-ion batteries are fast rechargeable, low maintenance batteries which have become increasingly popular in the last few years.
Unlike other batteries available on the market today, lithium-ion batteries have a number of advantages. Lithium-ion also has a longer battery life which makes them attractive solutions to adopt over VRLA. They have a higher number of charge and discharge cycles, and, depending on chemistry and usage, the product lifespan of lithium-ion batteries can be up to three times longer than VRLA. Lithium-ion has the added bonus of being able to recharge quicker and hold its battery power for longer than VRLA solutions as well.
These advantages, coupled with its now competitive pricing, have drawn businesses towards their adoption. Making its mark in consumer products While the benefits of lithium-ion batteries in the UPS market have been recently recognised, lithiumion is not a new technology.
Over the last decade, the technology has been a widely used solution in December 23 UPS the consumer electronics market, particularly within mobile phones, tablets and laptops. The batteries offer a compact, lightweight, long-lasting energy storage solution — all of which has contributed to their widespread adoption in mobile devices. In very recent years, the same characteristics have expanded the application of the technology to electric cars and aviation.
Lithium-ion in the critical infrastructure industries Looking at the critical infrastructure industries, telecoms and renewable energy are the markets using lithium-ion batteries the most.
In these sectors batteries are often used to protect critical equipment from power loss or power instability as they can provide an instant power supply to whatever device they are connected to. Therefore, they can significantly reduce the footprint of the battery cabinets, and in some cases, enable in-row battery storage. The system, designed for a leading, global fashion company based in Europe, can be easily scaled to 2.
What to consider when making the switch When looking to implement a new battery solution, cost is invariably a consideration. In addition, the requirements of each data centre will impact the decision-making process. As lithium-ion batteries have a higher power density, the batteries occupy much less space than their lead counterparts. Thus, the reduced footprint and mass reductions means the technology can accommodate for buildings with multiple floors, and mitigate space or weight capacity issues.
Finally, the decision to deploy any new battery type should involve a conversation with your supplier. Our recommendation to customers is to discuss application requirements, safety concerns and regular maintenance with their providers and ensure their expertise is delivered through routine servicing.
Above all, if you are thinking of implementing lithium-ion — or any new battery type — always seek expert advice from suppliers or manufacturers. At Vertiv, we offer new lithium-ion energy storage solutions for several UPS systems across the globe. While standard batteries are still widely applied, the benefits of lithium-ion are so great we expect it to be a solution more businesses will start to take up. To buy or to build? That is the question. Mark Baker, field product manager at Canonical, is here to help un-muddy the waters.
B usinesses today are constantly trying to keep the innovation tap flowing. Factors such as rapidly changing competitive landscapes and developing consumer demands mean those firms that fail to innovate are likely to fall behind. To stop this from happening, businesses in all industries are turning to cloud computing technologies and most are now realising that a hybrid — or multi-cloud — approach is the best way forward.
A hybrid cloud strategy also gives businesses the option to move workloads between environments based on cost or capacity requirements and application portability means they are not locked into one platform.
However, not all firms are embracing third party providers. The desire to innovate as fast as possible means that, when it comes to the decision of going with a public and private cloud, many businesses are building hybrid cloud when they should be buying. But is that the right move? Navigating cloudy skies There is little doubt that a hybrid approach will be best bet for most organisations, but the right mix of public and on premises cloud infrastructure is up to your business requirements.
However, for the majority of organisations, the advantages offered by public cloud providers are simply too good to ignore. For example, many businesses tout the cost effectiveness and flexibility benefits that public cloud provides, while others want to be able to access new services, so are keen to tap into the fast pace of innovation that public cloud providers have become known for. Whilst the benefits of public cloud are clear, many businesses that still need private infrastructure are choosing to build rather than buying from the experts.
A common misconception is that just because they can build, they should build. But building infrastructure that works and building infrastructure that really makes a difference to the business are two entirely different things. In comparison, if your developers are tasked with the main build they will likely spend most of their time on the base layers, and have less opportunity to add value by building new tools and services.
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This level of focus is unlikely to be attractive to potential hires. Experienced developers are not easy to come by and will be more attracted to companies that offer them opportunities to be creative and experiment with new services. Speed also needs to be a consideration. Public cloud providers are known for innovating rapidly and rolling out new features on a regular basis, a characteristic which is extremely hard to replicate to the same level of quality with an in-house developed platform.
A common misconception is that just because you can build, you should build. Should businesses be looking to leverage the innovation and speed-to-market benefits offered by public cloud providers, or should they aim to keep things in-house and maintain control over their workloads? Unfortunately, the simple truth is that there is no one-size-fits-all approach. The Company houses approximately individual carriers and Internet service providers, and over 20 European Internet exchanges. The Company's colocation services enable its clients to deploy information technology IT infrastructure in its data centers.
The Company provides its customers with various services through a range of redundant subsystems, including power, fiber and cooling. Its colocation services include space, power, connectivity, cross connect and managed services.
The Company's data centers house its customers' IT infrastructure in a connected facility. The service provides space and power to its clients to deploy their own IT infrastructure. The Company's data centers also offer its clients power availability.
It provides power backup in case of outage. It provides a range of output voltages and currents. It provides connectivity services that enable its customers to connect their IT infrastructure.