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Modular Data Center Design and Build Services

Why are data centers important to business?

The world has changed, and the need for knowledge is more significant than ever before. Only a few decades ago, people were happy with primary television broadcasts with only a handful of channels to choose from. While communications may be accessible, and mail is widely used, this isn’t the case anymore.

Since the internet became an ordinary convenience and nearly everyone has a smartphone, most of our waking hours are spent online. The internet has taken a central position in our lives. Whether it’s for work or pleasure, the internet significantly influences our lives. Prefabricated data center are designed to withstand server fluctuations, such as cloud computing, virtualization, centralization, and high density. They can increase data center efficiency, cut energy use, and meet the need for rapid growth with zero frictions. Modular data centers are made up of several modules with specialized purposes and a single input/output interface. The poor expandability of data center solutions is formed by combining related modules. Modules in different compartments can duplicate one another, and a fully operational data center may be constructed utilizing various pieces.

Advantages of modular data centers

Rapid deployment and shorter construction period

Modular data centers reduce the time it takes to plan and build them. The system design may be modified following the design goal. For example, the physical layout of module units is limited to a specific number and type of equipment that can meet current IT demands. Mass production of modules results in readily available goods and faster delivery. Standardized connection methods cut down on the amount of time it takes to install.

Multiple construction phases and high expandability

Because modular systems may be expanded to include more data centers, one to ten modules may be built depending on your demands to optimize the IT configuration in a data center, the cost reduction of modular data centers has been observed during the data center’s service period.

Standard, stable and reliable modules

Modular data centers have a modular, standardized, and highly-integrated structure to secure the architecture. In addition, modular data centers can be used to provide configuration options such as N, N+1, and 2N to meet the demands of clients who require more excellent TIA-942 Tier 4 performance.

Environmental protection and energy conservation

The most significant part of the TCO is electricity use during data centers’ service lifespan (55%). Therefore, users may only offer modules for the appropriate equipment and power costs saved during the data center’s service life if they use planning infrastructures dependent on contemporary IT needs and incorporate new modules as required by evolving IT requirements.

Intelligent management with highly-efficient operation

Customers may benefit from the intelligent management system’s ability to reduce energy use and consumption. It manages data centers’ multi-level refined energy usage by combining numerous reports, identifying additional energy consumption points accurately, and providing consumers with information on how to reduce their electricity bills. In addition, energy-efficient designs are developed using Big Data analytics to construct green modern data centers.

What are Modular Data Center Solutions?

The modular data center is a module and compartment built to industry norms at the fully functional data center site. The data center is made up of some different areas. Each area is built to meet the demands of its size, power consumption, arrangement, and so on, following a single specification. To guarantee that the cooling, power supply, and management systems in a modular data center are separated and categorized, they don’t interfere and operate independently without utilizing shared resources. The modular data center may become a “virtually accepted approach” for constructing a data center in five years. Regardless of its size or sector, any company may build a modular data center for itself and subsequently increase the scale of the data center to fulfill new IT demands.

  • Servers –A server is a computer or system that provides resources, data, services, or programs to other computers over the internet via a networked connection. In theory, computers that share resources with client machines are considered servers.
  • Server racks –A data center rack is physical steel and electronic structure used to house servers, networking devices, cables, and other data center computing equipment. Within a data center, this material structure enables equipment placement and orchestration.
  • Power supply –  Modular data centers are constructed with various cooling and power supply and management systems categorized and modularized to ensure that they don’t interfere with each other and can be operated separately without shared resources. The data center may benefit from a module in a variety of ways.
  • Cooling technology – The modular data center’s separate cooling systems are used to satisfy all cooling demands in every sector. Modular data centers have hot and cold aisles and in-row cooling units. Blind panels are positioned in the rack’s space where no servers are installed, and 95% of the cold air may be directly sent to the cold aisles, which enter the server racks. The heated air discharged by all frames is recovered by the cooling unit, preventing it from flowing forward.
  • Security features –Access to a data center facility is restricted. The majority do not have windows on the outside, and only a small number of entrances are available. Surveillance cameras on the outside perimeter are used to keep an eye on the premises. The interior guards search for suspicious behavior by watching video from surveillance cameras positioned along the exterior barrier.
  • Fire protection-  The modular data center’s cold or hot aisle confinement system can boost air conditioning usage to save money and decrease consumption. A partially open fan is mounted on top of the modular data center. A cold aisle is an area of the shop where refrigeration equipment is carried. It has a clear opening of more than 60% of the top of the chilly gallery. The data center has a gas extinguishing system. When a fire starts, the fan on the top of the cold channel opens partway, causing the magnetic door sensor on the glass. The modular data center’s interconnected firefighting system is automated, and a notification is sent to the fire center. The top of the cold aisle is then opened partially and automatically by a signal from the fire control center. The skylight, side-door, and control systems comprise the airflow organization and management system.
hot & cold containment

How to identify the proper planning strategy for your data center

The process of building a data center is both problematic and expensive. A data center facility, when done correctly, can last for years beyond its intended lifespan. Therefore, doing everything well is crucial when planning a modest facility for a specific firm or a vast, million-plus square foot data center for cloud technologies. The suggestions outlined here can get you started on the right foot when designing your data center.

Leave Room for Growth 

A data center investment is going to be very expensive. The cost of retrofitting an existing facility or building a new one will be high. As a result, many businesses make a data center design to meet their present needs but don’t put money into the future.

Plan for the Support Team

Most of the time and effort will be spent on the actual areas where computers and other equipment are kept when arranging a design. Another crucial factor is where the support staff will operate from. This is most often a workstation located outside of the data center.

Optimize Data Center Cooling

Keeping your equipment within the correct temperature ranges is one of the essential aspects to consider when building a data center. If your data center becomes too hot, it may result in costly hardware failures that might cost millions to repair. As a result, you should devote a significant amount of time developing your data center’s cooling and ventilation systems.

Smart Data Center Airflow Management

The primary factor in maintaining the temperature in a data center is ventilation. The next stage is airflow. It’s crucial to remove heated air and provide cool air where it is needed. This is critical for temperature management and for minimizing cooling costs as much as possible.

Don’t Neglect Physical Security.

Data centers are costly to construct and maintain. In addition, most facilities have confidential or even critical data moving in and out regularly. Keeping all of this security is one of the most crucial reasons for data center construction. Therefore, when creating a new facility, it’s critical to think about physical security with these things in mind.

Focus on Proper Wiring from the Beginning

Wiring plans will assist reduce outages, increase the speed of troubleshooting, make adding new gear more straightforward, and much more. A data center can quickly become a disaster if it does not have the appropriate wiring strategy in place.

The future of data center design is modular

Enclosed Switch rooms 

Enclosed switch rooms are a practical approach to extending power infrastructure outside an existing data center building. The primary purpose of the enclosure is to protect electrical equipment from the weather. For example, an existing data center must expand its brick and mortar facility’s power capacity, but it is not feasible to extend the physical infrastructure because of indoor space restrictions. In this case, a bespoke modular, enclosed switch room may be constructed and installed in an adjacent area to the data center – saving time and money over building a new brick and mortar facility.

Open Framed Power Skids

Enclosed switch rooms are a practical approach to installing power infrastructure outside of a data center building where the primary goal of the enclosure is to safeguard electrical equipment from the elements. For example, an existing data center must expand the power capacity of its brick and mortar building. Still, due to indoor space restrictions, it is not feasible to extend the physical infrastructure.cIn the above scenario, a bespoke modular, enclosed switch room may be designed and installed in an external area near to the data center – saving time and money over building a new brick and mortar facility.

Data Centre Facilities Design and Implementation

Facility design

Data Centres Designer will design the blueprints for your data center, considering your specific demands. Provide a detailed design customized to meet specific technology and data center objectives and create each solution to be energy efficient. As a result, It developed over 65 million square feet of floor space and half of all LEED gold and platinum-certified data centers. This ultimately helps you determine availability, reliability, and topology needs, as well as overall data center costs.

Facility implementation

Speed of deployment is often a considerable concern for end-users, consultants, and contractors. An inability to adapt to increasing power requirements quickly can be detrimental to business operations. The implementation of modular power construction has significantly impacted project lead times. 

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