In fact, the latest cisco cloud index survey shows how much evolution is happening in cloud computing and data center platforms:
The volume of traffic in super-sized data centres will grow fivefold in 2020.
By 2020, it will account for 53% of all data center traffic.
In addition, according to research firm IDC, service providers are continuing to seek new breakthroughs in performance improvement and cost reduction while extending the implementation of cloud computing architectures.
In addition, hosted as a service mode will continue to be turned away from the traditional model based on cloud computing delivery mechanisms, such as infrastructure as a service, stimulate the managed server of very large scale growth (2013-2018 compound annual growth rate of 15% to 20%).
In today's digital economy, data centers must be run on a large scale to meet user needs, maintain market competitiveness, and provide new digital services.
A large scale data center is designed to be a large-scale scalable computing architecture.
To achieve this scale and density, supersize data centers are optimized for server utilization, energy efficiency, cooling, and space occupancy.
One way to do this is by automating the delivery of key resources from the server to the rack.
But how to deploy an oversize data center at a very large scale?
If the organization is making a large deployment or major data center update, it is critical to consider rapid deployment of a rack, power efficiency, and how to quickly start and run data centers.
The need for efficient data center efficiency
A recent called "data centers in the United States energy usage report" report pointed out that between 2010 and 2020, data center energy efficiency will save 620 billion kilowatt hours of electricity.
The researchers expect the us data centre to increase its total energy consumption by 4 per cent between now and 2020.
The next five years are the same as the last five years, reaching about 73 billion KWH.
Today, the supersize data center seeks to increase efficiency to reduce costs.
These new efficiencies allow the organization to re-regulate cooling requirements, reduce energy costs, and allow organizations to achieve more computing power with the same cooling capabilities.
But it's not just that.
The ability to scale is also around scalability and speed.
So how can organizations deploy large scale data centers faster and more efficiently?
How to deploy these critical racks quickly to ensure optimal execution and reduce human deployment errors?
Also, if the organization is now operating a very large data center and hopes for a massive update?
The organization may have reached a bottleneck in power consumption, so the organization must expand the space to improve and improve energy efficiency and overall density.
But where does it come from?
New technologies are affecting energy and power efficiency
To help supersize data centers deploy rack devices faster, reduce errors, and improve efficiency, Server Technology recently implemented a feature that allows PDU to be automatically configured.
Basically, Zero Touch Provisioning is implemented with a specific DHCP server option and server technology configuration (STIC) protocol and a simple TFTP server configuration.
This process allows the PDU to be configured automatically during the initial boot period of the PDU or other changes to the PDU configuration, depending on the need for the network Settings, the user license update, or the PDU configuration.
ZTP refers to the function of automatically loading version files (including system software, configuration files, patch files) used in new or empty configuration devices.
ZTP can be deployed very quickly, which is one of the keys to the rapid start-up and operation of the enterprise's networked PDU.
Once these devices are started, they immediately begin to provide critical power and control information, as well as environmental monitoring within the data center.
Remember, the ultimate reward for using smart PDU is to be able to collect valuable data points, monitor and control the power supply, and make better decisions around capacity.
ZTP is very suitable for applications in a very large data center environment.
These types of systems help:
Reduce the time and cost of deployment.
Automate processes to help minimize configuration errors.
Eliminate the need for additional devices.
Improve scalability and energy efficiency.
Allows administrators to quickly deploy racks to meet oversize requirements.
In addition, the organization can coupling the ZTP system with the next generation high-density socket technology (HDOT).
Therefore, the organization can not only automatically apply PDU to the super large data center, but also can use powerful power density function and socket technology.
High power density and reduction of cabinet space require new and technological innovative PDU systems.
With the help of a new socket system of server technology, the organization can greatly reduce the rack space and provide the standard C13 and C19 power outlets of the industry.
In planning for future designs, HDOT helps reduce the physical space deployed by PDU devices in the data center rack.
Solutions like server technology can now use high-density socket technology (HDOT).
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