Circuit Switching Vs. Packet Switching | Baeldung on Computer Science

1. Introduction

Computer and communication networks typically have more than one path from source to destination.

Switching refers to choosing the route the data will go through. Circuit and packet switching are the leading technologies we use in switched networks.

In this tutorial, we’ll discuss the differences between circuit and packet switching. We’ll start with the fundamentals of switching and then focus on the differences between the two techniques.

2. Circuit Switching

In circuit switching, the communication mechanism establishes a path between the source and destination.

Intermediate switches set aside enough resources to serve each dedicated path going through them. Physical links connect the intermediate switches once the circuit has been established.

The data transfer from source to destination takes place over a dedicated path. The circuit terminates the connection once the data transfer has been successfully completed.

Although it was initially designed to handle voice traffic, circuit switching is now widely used for data traffic. The public telephone network is the most well-known example of a circuit-switching network.

The following diagram illustrates how a circuit-switched network operates:

Circuits

The red and yellow lines represent two dedicated paths.

2.1. Advantages of Circuit Switching

Circuit switching dedicates paths. So, there is no need to wait at each switch to decide where to send data. Therefore, transfers happen immediately.

Also, the data we send always reach their destination in order.

2.2. Disadvantages of Circuit Switching

Circuit switching can be inefficient because it reserves system resources but doesn’t use them completely. The communication channel may be idle during most of the time the connection is live. For instance, utilization is high for voice connections but still doesn’t approach 100%.

There’s a delay prior to signal transfer for circuit establishment. Establishing the connection from the source to the destination can take too long.

Circuit switching requires more bandwidth and is more expensive.

3. Packet Switching

In packet switching, users divide their data into smaller packets before sending them. Each packet has a packet header that contains the following: the packet type, source address, destination address, and sequence number of the packet within the message. The Internet is an example of a packet-switched network.

In this type of network, nodes need to exchange information between terminals and hosts. The overall function of such packet-switching is the transparent exchange of data in small packets between terminals and hosts. The terminals and hosts don’t route the packets. Instead, they merely specify the destination.

Packets carry the destination address, allowing them to be individually routed through the network. In adaptive routing, they follow the route that will minimize the delay. As each packet contains the destination address, the packets from the same message can travel by completely different routes and still reach the same destination address. For example:

Packet switching

In the above figure, user-A sends the red packets to user-D, and user-B sends the yellow packets to user-C. We see that packets from the same user and message can follow different paths. The intermediate nodes (routers) forward the packets until they reach the destination.

3.1. Advantages of Packet Switching

Packet switching is cost-effective and easier to implement.

In packet-switching networks, users communicate with each other indirectly. This means there is no end-to-end communication. Thus, this switching type uses less bandwidth as packets quickly route toward the destination.

Packet switching doesn’t take up a large amount of space. In the case of a packet loss, we can request a copy to complete the message.

3.2. Disadvantages of Packet Switching

Packet switching is unsuitable for applications that can’t afford delays in communication. That is the case with voice calls.

There’s a higher installation cost.

Finally, packet switching requires a complex protocol for delivery.

4. D

ifferences Between Packet and Circuit Switching

Now, let’s quickly summarize the main differences between circuit and packet switching:

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5. Conclusion

In this article, we talked about the circuit and packet switching techniques. We also presented the main differences between them.

In packet-switching networks, users communicate with each other indirectly. They divide message into packets and send them individually over the network. In contrast, users communicate directly in circuit-switched networks over dedicated paths reserved solely for their and no one else’s communication.