The introduction of 5G network splicing technology has increased the significance of network splicing in the telecommunications sector. With the aid of this technology, numerous independent networks can be connected to form a single, quick, and effective 5G network.
Despite being new, it has become one of 5G’s most praised features since it provides businesses (and customers) with a tailored degree of service quality (QoS). Additionally, businesses can use 5G network splicing to enhance throughput, reduce latency, and enable quicker processing and storage rates.
What is Network Splicing?
In order to increase bandwidth and throughput, two distinct networks are joined together and made to function as one. This procedure is known as network splicing. The concept presents a fresh perspective on networks. There are several slices (or sub-networks) as opposed to a single network, and each has its own special features and use cases.
How Does Network Splicing Work?
To handle variations in how applications function on a network, network splicing enables operators to build and combine numerous virtual slices of their infrastructure through which particular types of traffic flow. Network splicing’s basic tenet is that networks are as diverse as the software and services that operate on them.
This means that different performance requirements, such as predictable latency, fast data throughput, or low power consumption, may apply to different services. These factors cannot be traded off in favor of one another because each is necessary for providing the service.
For instance, voice-over-IP (VoIP) calls don’t need to transport a lot of data, only rapidly and with little latency. In contrast, video streaming services need a lot of bandwidth and little latency so that videos can stream to customers without interruption.
The requirements for how these two applications operate on a network are completely dissimilar from one another. A single physical infrastructure can support numerous virtual slices that are adapted to the requirements of different applications thanks to network splicing.
Slices can simply be replaced by others if they don’t match their requirements without harming the network as a whole. As a result, an operator has complete control over all aspects of their environment, including price, capacity, and QoS.