In 1978, the International Standards Organisation (ISO) created a universal standard for exchanging information between and within networks and across geographical boundaries. This standard for network architecture was the seven-layer model for Open Systems Interconnection (OSI). The OSI model has encouraged conformity in designing communications networks and controlling distributed processing.

Manufacturers are developing intelligent computers and equipment, and numerous private- and public-data networks have been created to connect this equipment. But communication among these distributed systems and networks requires a standard approach to network design, one that defines the relationships and intersections between network services and functions via common interfaces and protocols.

The layered approach to network architecture stems from the operating system design. Because of their complexity, most computer operating systems are developed in sections, each of which has a particular function. This makes it simpler to refine each section to meet its functional goal. Ultimately, all sections are integrated to provide complete capabilities and services with a smooth-running operating system.

The same is true in designing networking systems. A network architecture specifies a hierarchy of independent layers that contain modules for performing defined functions.

This translates into a set of rules that defines the way participating network nodes must interact to communicate and exchange information. The OSI model defines standard relationships between the hardware and software in today's complex computer systems.

Each layer of the OSI model (provides specific services that contribute to the overall network functions.

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