CIRCUIT SWITCHING (VS) PACKET SWITCHING

Circuit Switching

      Circuit Switching allows temporary connections to be established, maintained, and terminated between message sources and message destinations. For example in the case of the voice- based phone network with which most people are familiar, a call is routed through a central office piece of equipment known as a switch, which creates a temporary circuit between the source phone and the phone of the party to whom one wishes to talk. This connection or circuit only lasts for the duration of the call. This switching technique is known as circuit switching and is one of two primary switching techniques employed to deliver messages from here to there. In a circuit switched network, a switched dedicated circuit is created to connect the two or more parties, eliminating the need for source and destination address information such as that provided by picketing techniques.

            The switched dedicated circuit established on circuit switched networks makes it appear to the user of the circuit as if a wire has been run directly between the phones of the calling parties. The physical resources required to create this temporary connection are dedicated to that particular circuit for the duration of the connection. If system usage should increase to the point where insufficient resources are available to create additional connections, users would not get connected.

Packet Switching

               The other primary switching technique employed to deliver messages from here to there is known as packet switching. Packet switching differs from circuit switching in several key areas. First, packets travel one at a time from the message source through a packet switched network, otherwise known as a public data network, to the message destination.The physical path which any packet takes may be different than other packets and in any case, is unknown to the end users. 

              Remember that packets are specially structured groups of data, which include control, sequence, source address, destination address information in addition to the data itself. These packets must be assembled (control and address information added to data) somewhere before entry into the packet switched network and must be subsequently dis-assembled before delivery of the data to the message destination.