Why Should You Use Enterprise Private Networks?

Enterprise Private Network is a portion of network basics that is responsible for some important functions and its usage is also very much widespread. Enterprise Private Network is a kind of public network and has the same functions like any other public network. However, it is protected by more advanced security processes and it is designed to carry out confidential corporate data. Enterprise Private Network is often compared to switches and in the following few lines, I am going to highlight the benefits of such a concept.

It is considered an important element of corporate infrastructure and it offers several advantages. The most important one is, the enterprise private network helps in managing, protecting, and monitoring the private data of the organization. There are several reasons behind its popularity. First of all, these private networks are specially designed to provide better security to corporate data. Second, these networks are designed to offer better manageability and monitoring services to the users, and this helps them save money on many things including administration costs and training expenses.

There is a great demand for such services and one of the major advantages of EPN include high reliability, low cost, easy configuration, and mobility. This is mainly since Enterprise Private Network can be activated and configured anywhere within a 15 minute time. It is not limited to any particular region and you can connect to it from anywhere within the globe. It is entirely managed by the administrator and there is no risk of any disturbance or data loss. Due to this reason, EPN became very popular for use in central offices where high reliability, high speed, and easy configuration are required.

There are several benefits of enterprise private network and one of them is, it allows secure VPN connectivity between the servers and …

What Is a Passive Optical Local Area Network?

Topology refers to the physical property of connecting two point-to-point networks using light, typically using optical fibers. The property of topology can be studied either qualitatively or quantitatively. In qualitative studies, the network topology is described in terms of fiber types, properties, and optical paths. In quantitative studies, the network topology is measured against bandwidth and performance. Qualitative studies, on the other hand, consider the utility of the network topology as a function of the input parameters.

The major benefits of Passive Optical Local Area Network technology are: it can replace copper wires; it can provide for better cost efficiency; it can help in providing for improved stability and reliability. Further, with the use of various technologies like Soft optical networking, optical transmitters can be positioned at various points along with the network infrastructure. This enables easy accessibility of signals by end-users.

The major disadvantages of implementing a Passive Optical Local Area Network are: it is more susceptible to RF interference; it is more prone to degradation at the optical interface compared to traditional copper wiring. A passive optical local area network can be protected by physically locking the fibers in pairs. Electrically locking the fiber enables data to be transmitted only when the optical fibers are both lit. However, Electrically locking the fibers involves some additional cost since the additional equipment needs to be installed. Moreover, it also requires advanced coordination between the enterprise data systems as well as the central switching center.

Optically connected networks based on Passive Optical Local Area Networks are often referred to as ATM networks. Such networks are widely used in healthcare, retail, wholesale, and utility industries for unified communications. ATM networks can be established using fiber optics. However, ATM networks can also be established using copper wiring.

ATM is one of the forms …