Structured Cabling or Point to Point?

Structured Cabling or Point to Point?

With the ever-growing emergence of network-connected devices, much of the conversation has shifted to wireless connections. However, cabling isn’t going away and is still an essential part of any IT environment.

Amidst all this, you may be debating whether to use a point-to-point cabling service or structured cabling for your data center. To help you make the best choice for your office or workplace, let us give you all the information that will help you make a confident decision. We’ll explain how each one works, as well as their pros and cons, so that you can feel secure in your choice when it comes down to it.


What Is Point-to-Point Cabling?

Point-to-point cabling refers to a data cabling system that uses long cables. The long cables are used to connect one point to another, such as from one switch or storage unit to another. The use of long cables creates an economical and sturdy network.

Today’s networks are far more advanced and see more traffic each day. Point-to-point networking cable service does not offer the same flexibility as infrastructure configuration.

As our computing needs are increasing, point-to-point connections are no longer cost and space-effective. A new solution was conceived with an increasing number of cables and complexity multiplication. This process is a downside of point-to-point cabling in modern data centers.

Even though the point-to-point cable is no longer used nowadays, due to the availability of top-of-rack (ToR) and end-of-row (EoR) equipment mounting options, it has now come back. ToR and EoR equipment often relies on P2P cables, which can be a painless but expensive solution if you see them as an alternative to standards-based structured cabling systems.

What Is Structured Cabling?

Point-to-point cable setups are quite problematic. As a response, data center standards like TIA-942-A and ISO 24764 offer a better layout of the cable innards so that devices can communicate with one another easily. Structured Cabling is a networking cable system that provides managers the chance to expand their business thoroughly. Structured cabling is designed to provide data, wireless, voice communications, and video capabilities.

Unlike point-to-point cabling, structured cabling service uses distribution areas to make sure everything is connected. For example, a switch might lead to a server, and the server may connect to some storage. Switches might also be part of the connection and create an even more robust network.

Structured cabling meets Electronic Industry Alliance/Telecommunications Industry Association (EIA/TIA) and American National Standards Institute (ANSI) standards related to design, installation, maintenance, documentation, and system extension.

So, in an increasingly complex environment, this can also help reduce costs and risks.

Is one better than the other

Structured cabling is a more complex system than Point to Point. It requires the installation of cables and wires that are installed in a specific order.

Point to Point, on the other hand, only requires two devices to communicate with each other. There is no need for any unique installation or ordering of cables and wires.

Structured cabling is a more expensive option than Point to Point because it requires specialized equipment and labor costs that are not needed with point-to-point connections.

Point-to-point connections are much faster than structured cabling because they don’t require any special installation or ordering of cables and wires.

However, structured cabling is a more advanced and reliable way of transmitting data than point-to-point wiring. Structured cabling provides a better channel for data so that the signal can be transmitted over long distances without any loss in quality or speed.

Using structured cabling reduces the risk of interference, which can cause signal quality and speed problems when using point-to-point wiring.

Different use cases of structured cabling

Structured cabling is used to connect the different types of computers and other devices in an office, school, or other large building.

The need for structured network cabling arises because modern computer networks now use high-speed data transmission over long distances.

The cables used in structured cabling are made of copper or fiber optic cable, and they transmit signals at a high frequency. The cables are installed inside the walls of buildings and come with connectors that help to organize them.

Different use cases of point-to-point cabling

Point-to-point wiring is a type of cabling that connects two devices, such as computers, without a network switch. This type of wiring connection is most commonly used in home networks.

The first use case for point-to-point wiring is in home networks, where it connects two computers. This configuration is often used when the user needs to transfer files between the two computers or share an Internet connection. The second use case for point-to-point wiring is connecting a network switch with a router or computer with an Internet connection. This configuration can be helpful if one device needs to access data on another device and there’s no other way to do so (such as through Wi-Fi).


The conclusion is that both of these cables are considered reasonable IT solutions for different purposes. Structured cables are better for data cabling centers, and point-to-point cables are better for connecting two devices together. The information provided in this article is sufficient to determine if a structured cabling service is better for your use case or point-to-point cabling.


Need more information? Contact Priority Networks Inc today!

Massimo DeRocchis

My life has been surrounded with computers since I was a child, from my first job as a Computer Assembly Assistant to the current ownership of Priority Networks, a dental focused networking company. Starting with an Apple computer connecting to other networks when I was only 13 years old, I quickly knew this passion would lead to bigger ventures. As the internet started to evolve, I immediately worked for an Internet Service Provider (ISP). This gave me insight to the power of worldwide internet communications and the capabilities of sharing data across multiple networks simultaneously. The dedication towards this field has given me the advantage of understanding new technologies and grasping complicated issues quickly from software, hardware, networking, security, management and much more. As a Computer Network Manager for Tesma International, a division of Magna International, I gained the experience of becoming a qualified NAI Network Sniffer, EDI Communications Specialist, Head Securities Manager, MRP Manufacturing Integration Manager, and received several enhanced managerial and technological training courses. Moving forward to today, I apply all my knowledge, training and years of solid network experience to deliver the very best support to all my customers at Priority Networks.