- DCN - Computer Network Security
- DCN - Computer Network Models
- DCN - Computer Network Topologies
- DCN - Network LAN Technologies
- DCN - Computer Network Types
- DCN - Overview
- Data Comm & Networks Home
Physical Layer
- DCN - Network Switching
- DCN - Multiplexing
- DCN - Wireless Transmission
- DCN - Transmission media
- DCN - Analog Transmission
- DCN - Digital Transmission
- DCN - Physical Layer Introduction
Data Link Layer
- DCN - Data Link Control & Protocols
- DCN - Error detection and Correction
- DCN - Data Link Layer Introduction
Network Layer
- DCN - Network Layer Protocols
- DCN - Internetworking
- DCN - Routing
- DCN - Network Addressing
- DCN - Network Layer Introduction
Transport Layer
Application Layer
- DCN - Network Services
- DCN - Application Protocols
- DCN - Client-Server Model
- DCN - Application Layer Introduction
DCN Useful Resources
Selected Reading
- Who is Who
- Computer Glossary
- HR Interview Questions
- Effective Resume Writing
- Questions and Answers
- UPSC IAS Exams Notes
Network Switching
Switching is process to forward packets coming in from one port to a port leading towards the destination. When data comes on a port it is called ingress, and when data leaves a port or goes out it is called egress. A communication system may include number of switches and nodes. At broad level, switching can be spanided into two major categories:
Connectionless: The data is forwarded on behalf of forwarding tables. No previous handshaking is required and acknowledgements are optional.
Connection Oriented: Before switching data to be forwarded to destination, there is a need to pre-estabpsh circuit along the path between both endpoints. Data is then forwarded on that circuit. After the transfer is completed, circuits can be kept for future use or can be turned down immediately.
Circuit Switching
When two nodes communicate with each other over a dedicated communication path, it is called circuit switching.There is a need of pre-specified route from which data will travels and no other data is permitted.In circuit switching, to transfer the data, circuit must be estabpshed so that the data transfer can take place.
Circuits can be permanent or temporary. Apppcations which use circuit switching may have to go through three phases:
Estabpsh a circuit
Transfer the data
Disconnect the circuit
Circuit switching was designed for voice apppcations. Telephone is the best suitable example of circuit switching. Before a user can make a call, a virtual path between caller and callee is estabpshed over the network.
Message Switching
This technique was somewhere in middle of circuit switching and packet switching. In message switching, the whole message is treated as a data unit and is switching / transferred in its entirety.
A switch working on message switching, first receives the whole message and buffers it until there are resources available to transfer it to the next hop. If the next hop is not having enough resource to accommodate large size message, the message is stored and switch waits.
This technique was considered substitute to circuit switching. As in circuit switching the whole path is blocked for two entities only. Message switching is replaced by packet switching. Message switching has the following drawbacks:
Every switch in transit path needs enough storage to accommodate entire message.
Because of store-and-forward technique and waits included until resources are available, message switching is very slow.
Message switching was not a solution for streaming media and real-time apppcations.
Packet Switching
Shortcomings of message switching gave birth to an idea of packet switching. The entire message is broken down into smaller chunks called packets. The switching information is added in the header of each packet and transmitted independently.
It is easier for intermediate networking devices to store small size packets and they do not take much resources either on carrier path or in the internal memory of switches.
Packet switching enhances pne efficiency as packets from multiple apppcations can be multiplexed over the carrier. The internet uses packet switching technique. Packet switching enables the user to differentiate data streams based on priorities. Packets are stored and forwarded according to their priority to provide quapty of service.
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