Prefabricated Data Centers (Modular Data Centers & Containerized Data centers)

Due to the growth of large scale data handling, the data centers have emerged a lot for its needs and requirement. The cloud computing has become one of the emerging technologies in these years and it keeps growing which straightly depends on data centers. An average time period required to build data centers is calculated between 2-4 years or more and highly budgeted. As per the current requirement of data centers and usages, this is such a long time and involves huge budget. How can we reduce this time period and budget without compromising the quality? The answer is Prefabricated Data Center Solutions. 

In the past few years, the prefabricated modular building technology has become one of the most promising choices for the building industry and is widely applied in high-rise offices, dormitory and chain hotels. Considering the customer benefits such as quick construction, energy-saving, standardized production and predictable quality this was innovatively introduced into an information and communications technology (ICT) industry, building high-standard datacenters without brick-and-mortar. Prefabricated data centers are often marketed as converged infrastructure(way of structuring an information technology (IT) system which groups multiple components into a single optimized computing package), promoting economies of scale and efficient energy usage, including considerations regarding the external environment.

These systems consist of purpose engineered modules and components to offer scalable data center capacity with multiple power and cooling options. Prefabricated Modular Data Center Solution integrates power, cooling, firefighting, cabling and management systems into the prefabricated modules. All modules including IT, power, cooling, battery and multi-function modules are prefabricated in the factory, and all facilities will be pretested before delivery. The site preparation is synchronized with the module prefabrication. When all modules arrive at the site, it takes only a few days to complete all installation and commissioning.

Types of prefabricated data centers

Prefabricated data centers typically come in two types of form factors. The more common type referred to as Containerized data centers(portable modular data centers) and Modular data centers that can be quickly built on a site and added to as capacity is needed.

Containerized data centers(Portable data centers)

A containerized data center, as its name suggests, is a packaged data center solution that has been pre-engineered at the factory. It has been put together in an ISO container (20 feet by 8 feet or 40 feet by 8 feet) for shipping by sea. Also, it may be modified in a number of ways to better support the secure and practical use of IT equipment. A containerized data center system is a portable method of deploying data center capacity. A modular data center can be placed anywhere data capacity is needed. The basic requirement that most of these containers are designed to support includes servers, storage and networking gear. In addition, containers may be designed to support some combination of uninterruptible power supply (UPS), generators and/or chillers, with some of that equipment supported in the same containers as the servers and storage equipment, or in separate and distinct containers. 

Containerized data center solutions are designed to support three major modules of the data center which are said to be for IT space, Power and Cooling.

Containerized IT Space

A containerized IT space is a self-contained module consisting of compute, storage, and networking resources, designed to fit into a shipping container. Local experts build and configure from one to several racks of equipment inside a container, and the container is then shipped to a remote location to serve a specific set of customers, or to take advantage of lower space, power, and cooling costs. It also houses the support infrastructure to distribute power and air to those systems, as well as provides a suitable work environment for the IT staff that must operate the space. Typically, such a module incorporates the following subsystems,

• IT racks to hold the IT equipment
• Power distribution units (PDUs)
• Rack PDUs
• Air distribution system (CRAHs, CRACs, air ducts, depending on architecture)
• Humidification / dehumidification system
• Cabling infrastructure/cable management
• Fire detection / protection
• Lights
• Security systems
Unlike traditional data centers where there is one core layer and all of the resources are managed as a whole, modular data centers use a distributed core architecture. These containerized data centers can deliver flexibility, reliability, and scalability at a lower cost.
Containerized Power

A prefabricated power module is designed to provide bulk power to the data center. It may power a modular IT space or a traditional IT space within a building. The typical subsystems within a power facility module are switchgear/switchboards, ATS, UPSs with batteries, transformers, and panelboards. In addition, support systems such as lighting, security, cooling may exist in the module for enclosed form factors. Standby generators are generally a separate module that can be integrated with the power module.
Containerized Cooling

Today’s data centers use a range of cooling architectures to support the IT space, based on requirements for cost, efficiency, reliability, etc. The physical location (climate) of the data center is also a big driver when determining the optimal approach. The below picture illustrates a hydronics module consisting of pumps, VFDs, management, and connections for an air-cooled chiller modular design.
However, it’s not necessary that a data center must have all these three modules to operate. It depends on the data center type that customers needed(Enterprise, Co-location, etc.). They can either choose any single module or combination of these. If you do not opt for all these modules together then rest of those functions must be operated with the traditional way of supply. Hence based on the configurations of the data center, it can be three types,

·      Semi-prefabricated – A data center comprised of a combination of prefabricated functional blocks and traditional “stick-built” systems
·      Fully prefabricated – A data center comprised completely of prefabricated IT, power, and cooling modules
·      All-in-one or Core– A data center that is self-contained in a single enclosure, with IT, power, and cooling systems.

On high scale data centers(enterprise data centers), there will be the utilization of multiple containerized IT spaces, power, and cooling. Typically on a small scale project, remote location( oil rigs, nuclear plants, war zones, etc.) or temporary projects, it’s not necessary to have huge infrastructures to support this. This could be used as the best solution. 

Building blocks of Containers

One of the questions that we may have is, when we considering the containerized data centers, how efficient it will be to protect the data center from outside environments. Isn’t It essential for data centers to guarantee the stable operation of the critical business? All the Datacenter solution provides offer high reliability to customers. With IP55 protection-rating (optional IP65), these can withstand sand and dust storms, and heavy rain attacks. These containers may go under the salt-mist UL test and have strong anti-corrosion ability. Its service life is as long as 25 years. With customized coating, facade, and roof, the service life will be extended to 40 years. The solution passes a 120-minute fire test of a UL Lab and can withstand earthquakes of Mercalli 9 degrees. It can operate stably between -40~+55. These tangible benefits will help the data center easily adapt to all types of tough environments.

Advantages of Containerized data centers

Containerized modular data centers are the best solution for locations that might not be suitable for a building or another structure. But that’s not limited to this, there are several key advantages to a containerized data center,

Scalability – A containerized data center approach allows the total computing power to be scaled up by simply adding more containers. Each module plugs into the architecture like a Lego block. You don’t have to schedule a maintenance window to add capacity (or provision unused and expensive spare capacity) as you would in a traditional data center, which can cost thousands or even hundreds of thousands of dollars, depending on which applications you’re running. In a high-frequency trading application or a Web 2.0 gaming portal, for example, downtime is extremely expensive.

Density and PUE - Density in a traditional data center is typically 100 watts per square foot. In a modular solution, space is used very efficiently and features densities as much as 20 kilowatts per cabinet. The PUE can be determined at commissioning and because the module is pre-engineered and standardized the PUE’s can be as low as 1.1–1.4. The PUE metric has also become a great gauge of data center green efficiency. Look for a provider that strives to break the 1.25 –1.3 barrier or at least one that’s in the +/- 1.2 range.

Troubleshooting – In a modular data center approach, faults are confined to each data center module, so it is easier to isolate problems and diagnose them. Containerized data centers are designed to be maintained by simply replacing a bad server or storage array or a (partial) rack, so there is less expertise required to perform on-site maintenance at a remote location than there is in a conventional data center.

Reliability – Because the containerized approach creates and leverages several self-contained data center modules, a total failure of the core in one module does not bring down the entire infrastructure, as it would in a traditional data center.

Less Capital Investment & Maintenance cost– The prefabricated modular datacenter solution saves about 40% initial investment compared with the brick-mortar building way, which brings quicker ROI to customers. Each container uses its maximum space by utilizing for its needs. The cost savings could also extend to software/management upgrades.

Drawbacks of Containerized data centers

If prefabricated modules offer flexibility, shorter time of deployment, and cost advantages, then why aren’t prefabricated modules a solution for everyone? Consider some of the challenges that prefabricated modules can present,

Existing investment in a building - When evaluating prefabrication for the IT space, it is important to note the existence or planned investment in a traditional building, as it will have a strong impact on the cost analysis. Since a prefabricated module already has a weatherproof shell, the added cost of locating them in a “finished” space has minimal cost-benefit.

Physical risks – Prefabricated modules can be exposed to outside elements such as severe weather, malicious intent, vehicle traffic (if placed in a parking lot), and animal insect infestation. Risks for a particular site should be assessed before choosing to deploy prefabricated modules. In these cases, similar considerations must also be made for other support systems, such as generators, chillers, or condensers.

Restrictive form factor – Prefabricated modules are large and heavy, and although mobile, they do present some challenges when it comes to placement and relocation. Modules may be too heavy to place on the roof of a building or may present logistical challenges in tight city streets.

Local code compliance – Since prefabricated modules present new technology, local municipalities may not yet have established guidelines for restrictions on modules. Inconsistencies could exist regarding how different municipalities classify power, cooling, and IT modules. Local codes impact the level of module engineering and customization required to secure Authority Having Jurisdiction (AHJ) approvals.

Transportation – The Transportation Security Administration (TSA) stipulates width (11.6 feet, 3.5 meters) and length limitations in many countries in order for truck and train loads to pass over curved roads, under bridges, and through tunnels. Outside of city tracks, roads can be even smaller, further restricting the mobility of containers. Non-standard wide loads require special permits and in some cases escorts which increases the cost of transporting the prefabricated modules.

Lesser Customization – Most of the prefabricated structures are designed and manufactured based on common market requirements. However many of the data centers may have their own requirements and designs to be accomplished. This can be a challenge here which makes these solutions less customizable. 

Appearance - Containerized solutions without any esthetic adjustments may give off an air of “job site” to the location, making them unattractive for enterprise data centers or for providing services to third parties.
It is important to remember that a data center facility has but a single purpose — it is a means to an end, designed to house, protect, and support IT hardware so that applications can deliver services key to the organization and their customers. Consequently, when considering a containerized or modular systems, remember that while such systems may have been originally developed as a stop-gap measure to deal with an older facility’s capacity limitation, you need to examine your facility’s current plans and IT architecture to evaluate how well their use may relate to your organization’s long-term business strategy and goals.

Modular Datacenters(MDC)

This idea was almost similar to prefabricated buildings. Customers like to build data centers themselves – modular gives them that flexibility. Modularity is being able to build a data center piece by piece. A modular datacenter facility is constructed with a set of building modules of different types of functionality to form an entire data center facility having a standardized pre-approved architectural design and layout. All instances of a particular type of building module will have approximately the same floor plan and architectural design. In fact, we can say that modular data centers are custom made in many cases. An initial set of building modules can be built upon a parcel of land, and then as needs of space and additional capacity of the modular datacenter facility increase, then at a future point in time, additional building modules of the different types can be rapidly added to the initial set of building modules. The building modules of the different types use one or more connecting corridors architected into at least a first type of building module and corresponding aligned doorways between both building modules to interconnect two building modules adjacent and abutted to each other. Modular data centers(MDC) are often referred to as "Truly modular building data center facility".

These models are not having much differentiation with traditional data centers. The vendor will design and manufacture the components as per the client's preapproval in their factory. Modular data centers(MDC) may be based on components of modular blocks, pre-assembled and factory tested and provide a scalable solution and a delivery time that is shorter than in traditional brick and mortar construction. Once all these modules are ready, these components are shipped and delivered onsite on a ready to bind together style. Hence we can club all these and start the operations on a much lesser time period cost. Its major difference in relation to a containerized solution is that there is not a limited capacity for the number of racks or the total power for the IT load, but they may be assembled and dispatched in modules that have the right dimensions to ease shipping and transportation.

The main factor that is boosting the use of prefabricated modular solutions is the implementation times. The reason is that standard components are used that have been preassembled and tested at the factory and delivered and placed into commission on site. They provide reliable, efficient solutions with a very good “time to market” and the modular blocks may offer greater scalability, ease of replacement or field upgrades. The esthetic appearance is much more pleasing and customizable in modular solutions, making them more appropriate for enterprise data centers since, once they are assembled on-site (and even painted), they may look similar to a traditional data center.

Looking at the below video can give you practical ideas in a few minutes.


Do you want to know how these things are set up within a container? Looking at the video of Delta InfraSuite Datacenter solution and DataXenter - building modular Data Centers is the best that you can review.

Traditional data center Vs Prefabricated data center

Now we have seen the prefabricated data centers and their types. Now the question would be is this really better than our traditional data centers? Comparative studies would give you a much better answer for you.
Major Players

There are many major players on the ground with the solutions of prefabricated modular data centers. Some of them are as below,

2. Cisco Systems Inc. – Cisco Containerized Data Centers
4. HPE Company – HPE Modular Data centers
5. Cannon Technologies Ltd. – Cannon Modular Data Centre Solutions
6. Huawei Technologies Co. Ltd - Smart Modular Data Center

Summary

Two of the biggest reasons typically listed for the problem with data centers are capital and speed of deployment. The traditional brick and mortar data center takes a lot of money and time to build. Furthermore, the quick evolution of supporting technologies further entices organizations to work with fast and scalable modular designs. Outside of those two primary drivers, there are many benefits and reasons listed for why a modular data center approaches are emerging. However, the specific business needs should be analyzed as they relate to the project’s and the client’s needs based on the possible traditional construction scenarios and or prefabricated solutions, including their pros and cons, to decide which better matches and most appropriately satisfies the requirements and needs. Each data center project is unique so there is no applicable rule when choosing the possible implementation scenario.


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How to Deploy MTP/MPO Cables and Connections?

Generally, the MPO cables and connectors can be utilized in 3 ways which are MPO/MTP adaptors, MTP/MPO-LC Cassette, MTP-LC Breakout Patch Panel, Transceivers With MTP/MPO Interface, MPO/MTP breakout cables are an exception for this methods.

1. MPO/MTP adaptors

Each individual MPO element (trunk, adapter, patchcord) is classified by type (A, B, or C) and contributes to maintaining the required polarity so that the right transmitter communicates with the right receiver. But when referring to the end-to-end system, standards refer to the “connectivity method,” which can also be A, B, or C. This should not be confused with the type of each individual element. An A, B, or C connectivity method corresponds to the type of the MPO trunk cable only.

For example, a Method A connection for end-to-end parallel signals will use 1 Type A trunk, 2 Type A mating adapters, 1 Type A patch cord on one end, and 1 Type B patch cord on the other end. Shown here is a “key-up-to-key-down” mating setup for MPO connectors. This method is used to maintain fiber polarity.
 
2. MTP/MPO-LC Cassette: Plug-and-Play for Fast Installation

MTP/MPO fiber cassette modules are fitted with 12 or 24 fibers and have LC, SC or E2000 adapters on the front side and MTP/MPO connector at the rear. Thus enables users to take the fibers brought by a trunk cable and distribute them to a duplex LC cable. It is an enclosed unit that houses 8, 12, or 24 fiber factory terminated fan-outs inside. MTP/MPO cassette allows for the rapid deployment of high-density data center infrastructure and supports improved troubleshooting and reconfiguration during MACs.
3. MTP-LC Breakout Patch Panel: Pave the Way for 40/100G Migration

Data traffic keeps accelerating and legacy 10/25G systems are hardly enough for it, making migration to higher-speed 40/100G imperative. The 96-fiber MTP-LC breakout patch panel can assist in making the transition: use MTP cables to connect your 40/100Gb switches to the rear ports of the panel, then add duplex LC cables to connect your 10 Gb devices to the breakout panel's front ports. This MTP-LC breakout patch panel is designed with a removable cable management plate at the back, it effectively simplifies trunk cable organization, facilitates installation and reduces cable clutter.
4. Transceivers With MTP/MPO Interface

Nowadays, various 40G transceivers are available on the market, but mainly there are two interfaces adopted by 40G QSFP+ transceivers—MTP/MPO and LC. Generally, the 40G QSFP+ transceivers with LC interface are used for long distance transmission over single-mode fiber (SMF), and QSFP+ transceivers with MTP/MPO interface are utilized for short distance transmission over multimode fiber (MMF). However, for some 40G transceivers with MTP/MPO interface, such as 40GBASE-PLRL4, and 40GBASE-PLR4, they can support long distance transmission over SMF.
Connection rules

I can suggest some of the thumb rules when consider connecting the MPO/MTP cables and those areas below,

·      When creating an MPO connection, always use one male connector and one female connector plus one MPO adapter.
·      Never connect a male to a male or a female to a female.
With a female-to-female connection, the fiber cores of the two connectors will not be at the exact same height because the guide pins are missing. That will lead to losses in performance.
A male-to-male connection has even more disastrous results. There the guide pins hit against guide pins so no contact is established. This can also damage the connectors.
·      Never dismantle an MPO connector - The pins are difficult to detach from an MPO connector and the fibers might break in the process.

MPO Connector Color Coding

MPO connectors can be color-coded to help you easily distinguish between the different types and specifications. MPO connectors are made for both single-mode and multimode multifiber cables. Single-mode multifiber cable jackets are YELLOW and they generally come with angled physical contact (APC) connectors. Because yellow represents either OS1 or OS2 specifications, it’s important to read the cable specifications carefully.

Multimode multifiber connectors have flat ferrules (also referred to as PC or UPC), and the recommended cable jacket colors are AQUA for OM3 and OM4, and LIME for OM5. However, having one color (aqua) for two different specifications can be confusing. That’s why some manufacturers introduced ERIKA VIOLET colored connectors for OM4, to distinguish them from aqua OM3.

Why MPO/MTP Solutions Are Needed in Data Center?

With the advent and popularity of cloud computing and big data, the demands for high-speed transmission and data capacity are becoming much greater than ever before. And 40/100G Ethernet is now a trend and hotspot for data center cabling system. Since MPO/MTP connectors are the up-and-coming standard optical interface for 40/100G Ethernet network, it is predicted that MPO/MTP solutions will eventually flood the data center. After all, the high fiber count in one connector creates endless possibilities.

As the new favorite of the data center, the MPO/MTP solutions feature the following advantages,

1. Rapid Deployment

Since the MPO/MTP products are factory terminated, they can be installed easily and simply. They use a simple push-pull latching mechanism for easy and intuitive insertion and removal. Thus, the installing process only includes pull and plug, eliminating all unpredictable field termination troubles. It is estimated that the MPO/MTP solutions’ installation time can be reduced by up to 75% compared to traditional fiber cabling systems.

2. High Density

Being the same size as an SC connector, the MPO/MTP connector can accommodate 12/24 fibers, providing 12/24 times the density. Therefore, MPO/MTP connectors allow high-density connections between network equipment in telecommunication rooms and offer savings in circuit card and rack space.

3. Cost Saving

As mentioned above, the installation process of MPO/MTP products is simple and easy. Therefore, the installation time involving a costly highly qualified workforce can be reduced to a minimum.

4. Scalability

As we all know, most MPO/MTP products are modular solutions. This is a good choice to ease future expansion and for quick and easy system reconfiguration.

Summary

Speed is paramount to a data center, therefore data center is always on the road to higher density data rates. MTP/MPO fiber optic cable assembly appears to be the best option to improve the speed, agility, and performance of the system. Considering the time saving, space efficiency and flexibility, it is worthwhile to make MTP/MPO cabling a part of your data center. However, it’s also important to know how to gain full advantage of these powerful cables. Understanding how they are configured, choosing the right testing tools, and making sure your cables have passed the three essential MPO tests—polarity, continuity, and inspection—are critical to turning up and maintaining efficient links.

Knowledge Credits: www.fs.comwww.cablinginstall.com

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