Abstract:
This standard provides best practices and implementation methods that complement TIA , CENELEC , ISO/IEC , BICSI and other published data center standards and documents . It is primarily a design standard , with installation requirements and guide lines related to implementing a design . The standard includes other installation requirement and guide lines for data centers , where appropriate .
The capacity of a data center is based on the size of the computer room space (floor space available for IT and telecommunications equipment), and the capacity of the power and cooling systems per unit of computer room floor space. High-density data centers have a higher capacity of power and or cooling per unit of computer room floor space.
A balance between space and capacity needs to be determined at the outset when designing a new data center and when modifying an existing data center space. The balance will depend on the type of IT and telecommunications systems the data center is to support and the number/combination of those systems which are to be placed within each cabinet or rack .
If it is perceived that to meet the performance balance will require delivery of both high levels of power and large amounts of cooling to the cabinet or rack, it may be more cost-effective to design and build a more moderate density data center by designing the data center into a space that can accommodate a larger computer room. Resulting space utilization and power / cooling density limitations should be clearly communicated and documented. In this work we studies the standers for infrastructure data center rooms in many big data center rooms in Sudan and compere it with standers and we gat a guide lines to help peoples work to builds this rooms .
