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Migration From Physical To Virtual Network

Virtual Network

The Popularity Of Virtual Networking Technology In The Wireless Industry Is A Slow Move Towards Digital Transmission In The Network. 

While This Is A Matter Of Cost, Market Time, And Reducing The Need To Create A Promising Service, Migrating To Virtual Networks Is Not Without Its Problems. 

This article tells the story of a selection of mobile network operators who have virtualized part of their physical infrastructure with all the benefits and problems.

Advantages

Network virtualization by migrating from traditional networks to fifth-generation networks: ZTE

According to existing industry theories, 2020 is the starting point for the commercial development of fifth-generation 5G networks. In addition to increasing bandwidth, 5G provides more reliability and less latency (URLLC) and machine communication (MTC) to support the IoT. The fifth-generation network connects many people and objects, which was a problem for the demand of previous generation networks.

Introducing virtualization technology is the key to solving this problem. In fact, virtualization technology has been used for many years and on a large scale in the IT industry. The introduction of virtualization will reduce the cost of ownership, achieve business innovation, and help prepare 5G networks.

Operators need to move their networks to a cloud-based architecture to ensure their infrastructure is ready to support new services. Operators will travel to 5G with different architectures and technologies.

Need to migrate from traditional network to network ready for 5G

Virtualization technology uses a hardware repository to share these hardware resources by activating network elements. This has a significant impact on maximizing resource utilization and reducing costs. Cloud-based NFV networks such as OpenStack and VMWare understand the integration of information technology and communication technology.

Based on big data and artificial intelligence networks, tasks such as automating operations and maintenance, reducing execution performance, and reducing maintenance costs are performed.

NFV and SDN virtualization leads to rapid network development, customer service agility, and on-demand personalization. Using virtualization will give great opportunities to organizations and operators. This makes it more efficient to manage and move from traditional communication service providers (CPS) to digital service providers (DSPs).

5G network is more attractive due to the possibility of using multiple applications; While for traditional networks, it is difficult to provide such a variety of applications.

Fifth-generation networks are focused on the business future of operators, and standards are set to meet their needs. Virtualization and cloud technology have enabled the network to provide new and innovative services.

Basic concepts in network migration

Technical basics of network virtualization

These technologies will be created or will be created in the network. They are provided for the success of technologies in the IT industry, but some of them need the advancement of the telecommunication industry to be more adaptable. Unlike traditional IT applications, there are many specific applications in the telecommunications industry, such as packet forwarding and audio and video decoding.

In the past, this was done using proprietary DSP and NP hardware. With the advent of DPDK, AVX, and other technologies, especially significant advances in processors, remote applications have reached the same power, or even better, than proprietary hardware. This feature was provided for applications to establish server storage, storage disk capabilities, and Open Flow.

Cloud computing is fundamental in information technology because it is an effective technology on a large scale.

However, the main requirement of telecommunications is reliability, large-scale network maintenance, and real-time, which is expected to make further progress in the current cloud technology. It can say that NFVI is suitable for operators to ensure sufficient security and reliability. Of course, a private cloud that integrates information and communication technology will be more efficient than a shared cloud in the long run.

NFV is the migration of remote devices from dedicated platforms to x86 servers. In these networks, all devices are developed on private platforms. All network elements are somehow in one box, and the hardware can not share.

Every device needs extra hardware to increase capacity, but it will be idle when it is not used to the maximum. So this method is time-consuming, inflexible, and costly. With NFV, network elements are standalone applications compatible with standard servers, storage devices, and switches.

SDN, or software-centric network, separates network control operators from forwarding operators and changes network management. Under these conditions, network routing becomes easier, flexibility increases, and dynamism increases.

There is another concept in networking called slicing.

This work aims to divide the network into smaller parts, which we will learn about its advantages in the following. This allows for easy configuration and reusability of network components. Each smaller part has its own needs that are different from the other parts. With this in mind, many are thinking of network slicing in a 5G architecture. This technology allows operators to split virtual, multiple end-to-end networks into one software infrastructure.

Each network is logically isolated in devices, access networks, transmission networks, and core networks. For each part, executive resources such as bandwidth, service quality, and security are guaranteed.

Another thing that increases the tendency to use slicing in 5G is the isolation of each part. If an error or defect occurs, it only becomes problematic in that part and does not affect other parts.

Microservices are based on the concept of solidarity.

Microservices communicate with each other via an API or a defined message bus. Information about user access and sessions is all stored on the data-sharing layer. Although each microservice is in a different location, each can obtain the latest user status via the data layer.

Compared to traditional virtual machines, container virtualization technology has provided high performance and scalability. This technology grew rapidly and made its way into the IT industry. In cloud application architecture, application components must deploy on containers. This results in resource utilization, the faster response from services, and better maintenance of agile applications.

 

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