Understanding Frame Relay

Understanding Frame Relay
Understanding Frame Relay

Understanding Frame Relay

            Frame relay is one of the inventions in the computer technology industry that have significantly transformed transmission of data among different devices. According to Mir and Sharma (2014), frame relay is a transmission service that has been designed into a packet-mode, and that helps to minimize the degree of data recovery and detection of an error within a network. In this respect, frame relay assists organizations to achieve a higher throughput by reorganizing the communication process. Frame relay allows for the transmission of data between Wide Area Networks (WANs) and local area network (LANs) (Basu, Jha, and Mohanty, 2015).

            Frame relay works by placing data into a small variable unit known as a frame. For instance, the network that has been created by a frame relay tends to create a permanent virtual circuit (PVC), which allows the customer to easily view a continuous connection without making a full payment (Basu, Jha, and Mohanty, 2015). To achieve maximum success from frame relay technology, an organization must choose a high level of service quality, and prioritize some frames while at the same time making others less relevant. Frame relay works by minimizing error detection rate between WANs and LANs, which makes it very efficient for interconnecting these networks (Walton, 1998).

Understanding frame relays: How they work

            Frame relay has a link-layer service that is connection-oriented to give rise to one functional unit. Being that frame relay falls on layer two protocol of X.25, it comprises of features that increase its ability to reduce error detection rates between LANs and WANs (Walton, 1998). These characteristics include; multiplexing, an indication of the most important and less important frames, insertion of zero bits, and frame delineation, nonduplication of frames preservation of frames, and protection of the probability of frame loss. These layer characteristics resemble those of OSI network layer protocol which frame relay is made up of (Basu, Jha, and Mohanty, 2015).

 Frame relay is used by today’s organizations to speed up the transmission of data among networks. According to Basu, Jha, and Mohanty (2015), the use of frame relay to improve networking performance is common in many organizations today. An example of one organization that utilizes frame relay is AT&T.

As Alexander, Alexander, Zhang, and Zhang, (2000), point out, frame relay that has been designed in the form of an integrated service is rapidly gaining strategic importance in both private and public sectors. These authors further assert that frame relay is mostly used by modern organizations to increase the worth of services that they offer and to achieve competitive advantage.

An integrated service that incorporates frame relay is used by today’s organizations to give customers what they desire as far as network connection and speed are concerned (Mir and Sharma, 2014).

There are many reasons why frame relay is still used today. when understanding frame relay, the reasons are provided. First, it assists organizations to minimize costs of internetworking. Second, today’s organizations can increase performance and minimize the complexity of networks. Third, companies which have successfully implemented frame relay can enjoy protocol independence and to increase interoperability (Basu, Jha, and Mohanty, 2015). Based on these benefits, contemporary organizations should consider utilizing frame relay with other technologies such as ATM and IP, to maximize network performance (Alexander et al., 2000).

Reference List

Alexander, H., Alexander, R. B., Zhang, J. & Zhang, Q. (2000). Value added service-voice, data, frame relay, ATM, IP all on one. Communication Technology Proceedings,  doi:10.1109/ICCT.2000.889280

Basu, A., Jha, K., & Mohanty, S. (2015). Wide area networking using frame relay cloud. International Journal of Computer & Mathematical Science, 4(7): 1-6.

Mir, S., A. & Sharma, M. (2014). A comparative study of x.25, frame relay and ATM in high speed networks. International Journal for Research in Applied Science and Engineering Technology, 2 (IV): 243-245.

Walton, D. (1998). Frame relay to ATM interworking. BT Technology Journal, 16(1): 96-105.

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