Three basic principles of designing Data Center infrastructure

Data Center is a critical resource in the organization. As we know together, the data center provides the storage, management, and dissemination of data, applications and communications for the business. When employees and customers cannot access servers, storage systems, and network devices that are in the data center, the entire organization is experiencing a shutdown process. With the presence of Tecdis, all network devices are in the data Tecdis Network will be maintained well.

Faced with this problem then the current IT executives must be able to optimize the data center, especially the network infrastructure. Since almost 70{4a3cfc29bd7cf85dc5f71a4c7b6930bed0042a9213e16ad7a8de17f71a602aab} of downtime problems in the network originate in the specific physical layer lies in the issue of cabling. Therefore, it is necessary to consider an optimal design relating to the design of the data cable infrastructure. With these three principles in making the basis of data center infrastructure design, we benefit and optimal savings throughout the operation of the data center. If we understand these 3 principles in the design of data center, then we can get:

  • Reduce the total cost for data center acquisition.
  • Support total costs for future development.
  • Reduce the risk of downtime.
  • Maximizes data center performance.
  • Improve data center capability in reconfiguring.

First principle: Space optimization

The optimal room design on the data center is the first basic principle to get the maximum performance data center infrastructure. Therefore, defining the current needs and needs in the future to determine the scalability factor is a critical point in the optimization of the data center roar.

Nowadays it has become a concern to IT managers who have realized the maximum utilization of room resources as a critical aspect in data center design. On the other party, if space is not optimized in the design process, it will result in other processes such as rack placement, cable tray, precision AC, etc. If in the future there is an additional need for space that is not accommodated in the design process then the costs incurred due to the addition or expansion of the data center are much greater in the future than when done in the present.

With growing data growth, more space storage is needed than other infrastructure. High-density design for cabling that minimizes cable tray, ducting, etc will provide flexible space for reconfiguration to support data center growth.

Second principle: Reliability

Datacenter services without downtime or interruptions are a critical factor in daily operations and business productivity. This reliability of the data center is determined by the performance of the network infrastructure, especially cabling infrastructure.

Connectivity to cabling must ensure the transfer of data from one device to another with high-speed data transfer rates. Therefore, cabling and accessories are backed up by a brand that has a good reputation and quality is important to ensure the data center connectivity. Cabling used can not only handle high-speed data transfer that exists today but also high-speed data transfer in the future. The current cabling infrastructure must be designed to anticipate throughput bandwidth speeds of up to 15 years to come.

The third principle: Manageability

Rapid technological developments often demand our flexibility in adopting them. With the cabling that manageable will help us in reconfiguring cabling infrastructure when there is a need to disaster recovery, upgrade or modification. Manageability starts from a strategic solution, unified cable management that ensures cabling and proper connection is organized, easy to find and access, and simple to reconfigure.