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Data Center Write For Us – Data Centers where the world’s data processed, organized and stored. Many data centres are located in warehouse-like buildings. They are functional infrastructures that hardly require physical access, although some are more aesthetic than others.

They usually quite large,, so they typically built in huge open spaces where land cheap, such as in the US state of Nevada. But, as we will analyze later and in other articles, some factors that can influence our proximity to other operators and energy providers, access to low energy costs and aid from the State.

The size you want

Strictly speaking, a data midpoint can be as small as a closet in an office. Still, they are usually larger, containing thousands of servers or computers connected -and usually, although not always, to the Internet- with physical networks. Or digital.

One of the largest data centre campuses in the world is The Stronghold, located in the Tahoe Reno Trade Center, the world’s largest business park. It is located in the State of Nevada and belongs to a Switch company.

In its entirety, Citadel can occupy eight million square feet (which translates to more than 740,000 square meters). However, the scale and worth of one or several data centres usually measured more by the capacity of electricity consumption this determines the number of computer equipment it can house. In the case of Citadel, it is 650 MW, at least until its development is complete. If this happened, it would become the largest Data Center in the world. Meanwhile, the title currently goes to Facebook/Meta.

the backbone of the internet

Rules and banks use data hubs to store and exchange data securely. Study organizations use them to process, analyze, and interpret vast amounts of information. Video game companies depend on data centres to provide graphics and allow their users to play online games worldwide.

The military depends on Data Centers to activate weapon systems. Advances in artificial intelligence are possible because infrastructures process large masses of data needed to map and solve complex problems.

Data Centers are functional buildings that require minor physical accesses. Some are more attractive than others.

Every time a query is made through the web (for example, putting the name of a website in a search engine, using a search engine, clicking on a link, scanning a QR code), you interact directly or indirectly—, with a Data Center.

The cryptocurrency sector uses the same digital infrastructure as mining. Although they are commonly called server farms, or cryptocurrency farms, they are essentially Data Centers equipped with high-performance computers.

As extensive as you have access to the networks to which they are connected, the information they have stored can be available from anywhere.

The distance between the user and a Data Center, as well as the networks to which it is connected, affects the time it receipts for data to travel between the network nodes, known as latency.

Inside a Data Center


It could be whispered that the most essential room in the building is the one for the servers since all the computers are kept, which are located on large vertical shelves and connected to the Internet through Ethernet connections.

Standard racks are 19 inches wide and typically hold up to 42 server units (abbreviated to U to label the size of a server unit, typically 1U or 2U). In addition to servers, the racks contain storage systems, network equipment such as changes and routers, cable management accessories, power delivery units (PDUs), and plans to manage ventilation.


Like personal computers, servers generate a lot of heat. This can create problems in rooms that are full of equipment. For this reason, Data Center operators/technicians try to keep the computer rooms as cool as possible using air conditioning units (CRAC), with the cold air inlets oriented to one side and the hot air outlets to the other. . In addition, refrigeration units that use air or liquid circulation systems are used.

It is also essential to maintain the levels of humidity and cleanliness inside the shelves/racks since the accumulation of dust and dirt can affect both the reliability and the power of the equipment and can generate short circuits.


For the most part, data centres connected via the electrical grid, with power supplied by distribution units (PDUs) in the data centre to maintain a stable supply of the equipment. This increases the risk of hardware damage, data loss, and interruption of the computer’s operations. This is because any power loss can cause computer downtime, also known as a blackout.

For this reason, data middles  equipped with backup power systems, such as generators and uninterruptible power supplies (UPS).

As the price of energy – both financial and ecological – continues to rise, companies are increasingly looking for ways to power their data centers through greater energy efficiency and lower carbon emissions. To do this, they opt for solar or wind energy, although they can also opt for other efficient ways, such as cooling the systems with outside air or investing in equipment that consumes less power.

Backup and recovery

Companies often use multiple data centres with a backup location, known as a “disaster recovery” location, which stores a copy of their data on separate servers to prevent data loss in cases such as a power outage or a fire in the primary data centre.

They  in a different location, far sufficiently away to avoid being affected by the same ruin at the same time, but close enough to physically connected.


Very strict security measures usually limit access to Data Centers. This is because they contain expensive equipment and sometimes sensitive or private data.

Physical security can consist of surveillance cameras, guards and access passwords, or even just biometric access. Virtual security, to protect against cyber-attacks or other hacking attempts that endanger a facility’s data, is based on software.

Physical security includes surveillance cameras and guards. Virtual security is based on software.

Distributed denial of service (DDoS) is a shared attack on data centre systems. The attacker floods them with traffic to disable them, leaving a website or an offline service out of service.

The severity of the impact depends on the systems attacked. In 2016, a DDoS attack against the servers of the security company Dyn caused significant damage to the most used web services of Amazon (AWS), Spotify and Twitter.

These attacks can State-sponsored, revealing the need for solid mitigation organizations for national security. Previously Russia invaded Ukraine in March 2022, and the websites of the country’s largest commercial bank and the Ministry of Defense suffered a DDoS attack. However, neither was officially attributed to any particular group or nation.


To prevent significant data loss, Data Middles are equipped with fire suppression systems inside and outside the server rooms. Conventional foam or water extinguishers conduct electricity, so operators prefer gas suppression systems, which cause less data for computer systems.

Different types of data centres


It is when businesses choose to store, manage and protect their computer equipment.

Although it sounds contradictory, it does not necessarily mean that the Data Center located, for example, in the headquarters of a company or its offices, but rather that the equipment is owned by it.


Some companies prefer to locate their computer systems in facilities shared with other companies, outsourcing the day-to-day running of the site to a third party, such as maintenance and security.

The hardware is proprietary, but the colocation provider usually guarantees power, refrigeration, and connectivity to network service providers.


A type of colocation where the provider only rents large blocks or even the entire facility to a single client. There is no industry standard for determining when a colocation becomes “wholesale”.


Cloud data centres differ from colocation data centres in that client data stored on systems owned by the cloud provider. Information managed virtually instead of assigning each server to a particular client.

For companies that want to store, procedure and back up their data at minimal cost, often paying only for what they use, the cloud is often the preferred option.


Hyperscale data middles owned or leased by businesses with significant data processing needs, either overseeing vast parts of the internet or managing technology systems for third parties. For example, Facebook/Meta, Google, Apple, Amazon, IBM or Microsoft, among others.

In hyperscale facilities, the entire building often dedicated to monolithic applications under one company’s control (Google search, Meta social, or Amazon’s AWS cloud, for example). This enables significant economies of scale and allows hyper scale workers to push the boundaries of technology and experiment with new approaches.


As connectivity has developed a staple of modern life – from the use of smartphones to the instantaneous transmission of data needed to run autonomous vehicles or facial recognition systems across the city – Some companies trying to move processing power closer to where it’s needed—at the “edge of the network,” as it’s known—to reduce the time it takes for data to foldaway to a facility and back to where it’s needed. This, again,  called latency.


The forerunners of data centres were the first mainframe computers. They began to developed in the United Kingdom and the ballistics research laboratory of the US Army, Electronic Arithmetical Integrator And Computer (ENIAC), built in the 40s to calculate artillery codes.

Information processing, storage, and encryption/coding were considered necessary in developing protection systems during the Cold War and were instrumental in ultimately creating the commercial server.

In the 1950s, transistors swapped space tubes in computer microchip technology, finishing with creating the first joined circuit, and the size and number of computers enlarged fast. At first, mainframe computers stored and processed information locally without the possibility of sharing it over a network, as currently done. In addition, the equipment was bulky and expensive, so for companies that needed to have their data stored digitally – many preferred to keep records on paper – doing so on their systems was not feasible, and mainframe computers were shared.

But since Moore’s Law accurately predicted that the cost of integrated circuit components would drop proportionally to the number of transistors added, the advent of microprocessors in the 1980s and 1990s made the capacity relatively cheap. Processing, and therefore, more and more companies acquired their hardware.

Networks allowed computers to connect over great distances; paradoxically, this caused clusters to develop close to each other.

Solutions such as colocation, cloud and hybrid (a mix between on-premise and cloud) came later, as the need for system scalability. Cloud providers have increased their competition and capacity.

Networks allowed computers to connect over great distances; paradoxically, this caused clusters (grouping of companies) to develop close to each other.

Data Center Write For Us

Computers began to group and gave rise to Data Centers. In the 1960s, the first interconnected packet exchange network, “Arpanet”, was created. It was made as the Advanced Research Projects Agency Network (ARPA), a US government agency based in Arlington, Virginia. Following the Arpanet, the internet evolved, and in 1998, the first MAE-East internet hub was created in northern Virginia.

As facility providers arose, they benefited from being located close to interactions. AOL and other companies set up shop in Ashburn, County London, which converted to known as “Data Center Alley” as others crowded in. Equinix, the first significant colocation provider, had extensive amenities there, and others moved on the incentive of low taxes and the price of land.

Legal and geopolitical factors

Beyond the heavy commercial forces that agree where companies operate in the data centre space, where data stowed and processed has legal – and sometimes political – implications that play a significant role for the industry. In the European Union, for example, it is illegal to store citizens’ data outside the Union’s borders if this violates the EU’s General Data Protection Regulation.

In other places, such as the US, the law establishes that the Government can require companies to provide their data (or that of their clients) if it considered relevant to an investigation.

Who owns and operates data centres in a given country can also be controversial. For example, the Commons Republic of Porcelain only allows foreign companies to build and operate there if they partner with a Chinese company.

Due to a change in data residency laws that stipulates that iCloud services must be available in the country, Apple – which for security reasons, had long resisted establishing itself in the Asian region – has recently invested 1,000 million dollars in the construction of a Data Center campus there, in collaboration with the local service provider Guizhou Cloud.

What is the value of the data centre industry?

The data centre industry is a significant part of the world economy since it generates both direct and indirect employment and is the base of the technology services industry. The data centre real estate marketplace has grown steadily for over two decades. It was bolstered, rather than hampered, by the Covid-19 pandemic, when most companies increased their digital trade capabilities and relied heavily on online conferencing systems.

Giving to technology research and consulting firm Gartner, global spending on data centre systems could reach $226 billion by 2022, while demand for data centre capacity could reach an all-time high.

Data centres seen as a profit to local (and sometimes national) economies, not because they pay a lot of taxes – in fact, some US states try to attract operators with generous tax breaks – or because they straight employ a lot of persons ( although they can signify quite lucrative bonds during building), but because they attract investment to the area.

The data centre real land asset sooq is enormous, and during the pandemic, as the lucrative value of office space fell, it grew commensurately compared to other types of real estate.

Data centre trading can reach astronomical sums: last year, publicly traded real estate investment trust (REIT) American Tower bought CoreSite’s US data centres for $10.1 billion.

Where are the Data Centers?

The United States is where the most significant number of Data Centers come together, concerted in parts such as New York, northern Virginia and Atlanta, arranged on the east coast; San Francisco and Los Angeles, happening the west coast; then Chicago, on the Midwest. The real estate company CBRE estimates that there are some 3,350 MW in use in the primary markets (with more capacity in smaller centres). According to CBRE, there is another 730 MW under construction.

In Europe, the Central East and Africa (EMEA), data middles tend to focused where the internet connections , with the largest markets being Frankfurt, London, Amsterdam and Paris (known as FLAPs), with a total forecast supply of 2,200 MW in 2022. Africa is the smallest part of this region, but it is expanding rapidly.

In the Asia-Pacific (APAC) region, China, Australia and Japan lead -in numerical terms- the volume of data centres set there, and the market is growing. According to the Real State company CBRE, in 2021, direct investment in Data Centers amounted to 4.8 billion dollars, an increase of 100% compared to the previous year. CBRE estimates there are around 2,000 MW online in APAC, with some markets nearly doubling in the next two years.

The data midpoint souk in Latin America (LATAM) is considerably lesser, but it is growing. Analysts are less likely to break out exact figures for the area, but estimates put the current size at about 200 MW, growing at 7% yearly.

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