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Data center migration
As more and more technology, resources, and user loads will be put into the data center infrastructure, the future data center capacity will continue to grow. Future demand for data centers will require higher levels of integration, while energy consumption and effective control remain the top priority.

Global data center traffic is firmly in the Giga byte era, by 2015 will be more than 1/3, by 2020 will reach 15 trillion and 300 billion bit. Not only the data center traffic continues to grow, but also SDN and NFV and other architectures continue to introduce new, so that their framework is constantly streamlined, for data center optimization, improve the new level. The rapid growth of data center traffic is part of cloud traffic, and by 2020 it will grow to four times now, accounting for 92%. of all data center traffic
Rapid expansion of cloud computing, an important traffic enabler, is increasing data center virtualization, virtualization can provide flexible, rapid deployment and efficient service. By 2020, 92% of the workload will be processed in the cloud.
The interesting part of the evolution around the data center is all components that need to be organically grown through data center extensions. One of the key factors revolves around environmental control. One of the best mechanisms for creating strong data center extension policies is by controlling energy consumption and the data center environment.
With this in mind, let's take a look at how environmental control can help data centers avoid expansion in three ways.
1, create fully customized climate control. In the work of processing data center technologies, many organizations are creating modular, even fully customized data center solutions. With this in mind, a cooling platform that can be modular or even custom designed is critical. Whether it's accurate airflow control or cold air handling procedures - new custom climate control solutions are changing the way data centers expand dynamically. In fact, through the expansion process of the data center, the entire climate control process can be customized to accommodate the needs of very specific data centers.
2, enable application specific cooling solutions. What if you just need to expand a part of the data center? Or - you run only part of the data center, which is a very specific function. The expansion of data centers is driving application specific environmental controls rather than abandoning existing systems. In many cases, you can create containment solutions for the critical part of the data center. Many organizations are actively using powerful containment structures for their critical data center components. The great thing about this is that, by extension, you can tailor these solutions uniquely to a variety of data center application case requirements.
3, environmental control - external, internal and external. Run advanced data center platform. Some of them may be outdoors, some of which may be indoors. The key is that you must have a powerful environment control platform that can be extended with your data center - wherever it is. Outdoor environment solutions can waste energy recovery from waste gas streams, and use it to pre conditioning outdoor airflow, to significantly reduce the heat required to maintain proper temperature and humidity levels in the occupied space, cooling and humidification load. These modular mechanisms allow you to extend data centers indoors and outside. The grommet in the data center, and even DCIM integrated frame airflow management is good method to support the data center environment control.