With the flow of data rising exponentially, data center space and efficiency have become premium factors for businesses. All hardware and cabling designs must be modular and scalable, make optimal use of space and take cooling and energy consumption concerns into account.
Gone are the days of using point-to-point cabling and directly connecting devices to one another. This leads to cabling messes and increases cabling costs for every hardware refresh. In today’s high-density data center, a well-designed structured cabling system increases uptime, scalability and return on investment while simultaneously decreasing your technology footprint and operating expenses.
In this white paper, we’ll explain what structured cabling systems are and analyze the benefits you can reap from implementing them in your data center.
A point-to-point cabling system is constructed with direct connections or “home runs.” Jumper cables are used to connect one device, such as a switch, server or storage unit, directly to another device.
Aside from becoming confusing, a point-to-point cabling system raises potential problems, such as reduced airflow and stress on cables, which negatively affects data throughput. Reduced airflow decreases hardware life by making the machine work harder, thereby increasing the power consumption in a data center.
A structured cabling system uses a Main Distribution Area, or MDA, into which all connections are run. The TIA-942 Standard defines the MDA as the central point of distribution for the data center structured cabling system.
It is the area where the consolidation to the main cross-connects and the switches and routers takes place. All active ports are replicated in a passive area with the MDA. This means active equipment is not affected or disturbed.
Adding new hardware takes far less time. Since the cables are neat and installed in an orderly manner there is less confusion. It is less likely that the wrong cable will be disconnected during moves, adds and changes
A structured cabling system allows technicians to use smaller diameter trunk cabling, reducing overall cable bulk and decreasing the chances for blocked airflow and crushed cables. By nature, a structured cabling system is organized and planned.
Today’s data centers are complex and diverse environments. A structured cabling system is needed to manage and support connections to hardware and to enable growth of the network. A structured system allows for scalability due to its modular design. Since the footprint is already in place, it is easy to add additional patch panels to create new connections.
A structured cabling system will last over multiple generations of hardware. Over time a structured cabling system will:
This makes it far more cost-efficient than a point-to-point cabling system.
Optical power budget, cabling system loss and channel distance are directly related to each other. Exceeding optical loss budgets will lead to channel errors, which can lead to downtime.
The best way to avoid this is to use a product set that can allow you to gain the benefits of a structured cabling system without exceeding optical loss budgets. This will allow for error-free operation and longer cable run distance
Moves, adds and changes (MACs) happen daily in most data centers. These MACs typically require a change of position with the physical cabling. When two fiber optic connectors mate, at a patch panel or into equipment, the pressure on the fiber mating can exceed 40,000 PSI.
This repeated mating and un-mating under great pressure will cause poorly manufactured cables to fail after only a few uses. Ensure your cabling products can meet the demands of your needs on the 100th plug-in as well as they do on the first.
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