Aditya Abeysinghe Networking

We discussed about switches in a previous post and this post will explain you about routers. In this article : 1. Routers vs Switches 2. Use of routing tables 3. How data packets are transferred by a router Routers vs Switches Consider the following two networks. Fig 1 : Network at the start Suppose you want to connect the computers in the first network together, you could use a switch for that purpose. Same thing could be done with the second network. However, if you want to communicate from one of the computers in the first network with that of a second network, can you just use switches? The answer is no. This is where routers come in to play. Use of routers for such connections serves many purposes. But most importantly, routers enable you to connect to all sorts of networks like local area networks (LANs), metropolitan area networks (MANs) or even wide area networks (WANs, such as the Internet). For example, assume the first network in some part of Asi

The problem with general communication methods- Businesses had to historically dedicate on leased dedicated circuits such as T1, ISDN and OC3. Although these methods provide reliable private secure methods, these lines are expensive and often rise in cost as the distance between offices increase. Fig 1 : Leased lines What is VPN? VPNs (Virtual Private Networks) are type of point-to-point connections across a private or public network. VPNs use a tunneling process to secure data while transferring data through insecure medium like the internet.&nbsp When a message to be sent is composed and submitted for sending through an insecure medium, a virtual envelope is created around the data, thus securing what is inside the message from the outsiders. Then a virtual tunnel is created for routing between different ports by which the message is sent across. See figure below for more details. Tunneling- The process- Tunneling is the process of pl

In the last blog posts we discussed about the star topology and bus topology . This is the third of the series of blog posts on network topologies. This blog post will explain about the mesh/fully connected topology, its pros and cons and the typical usage of its architecture. Mesh or Fully connected topology -  In a mesh or fully connected topology all the nodes are interconnected with each other without the use of a common media. In this blog post: Advantages of Mesh / Fully connected Topology Disadvantages of Mesh / Fully connected topology Usages of Mesh / Fully connected topology For example, as we discussed, in a star topology , all the networking devices were interconnected using a switch or a hub and in the bus topology , all the devices were interconnected using a bus line. More topologies to discover: Bus Topology Ring topology Star topology However, in mesh or fully connected topology, as the name implies, all the devices are inter

We have already discussed about the introduction to topologies , star topology , bus topology and mesh or fully connected topology . This is the last of a series of blog posts on network topologies. In this blog post we will discuss about the ring topology, its pros and cons and the typical usage of its architecture.  Ring topology -  In ring topology all the nodes are connected to make a closed loop as shown in the diagram below :  However, data can travel in a ring network only in one direction with the help of a token. A token contains some information and along with this information data is sent throughout the network.  In this blog post: Advantages of Ring Topology Disadvantages of Ring Topology Usages For example, suppose A wants to send data to C and let us assume that the token is moving along the loop counter clockwise. Then first E receives the token and since the addresses do not match E passes further. Then D receives it and similar

In the last blog post , we discussed about a brief introduction to network topologies and focused particularly on the ">star topology . In this blog post we will discuss about the features, pros and cons and the usage of bus topology. In this blog post- Advantages of using bus topologies Disadvantages of using bus topologies Usage Bus topology -  In a bus topology, all the devices are connected to a central cable (called the bus), through interface connectors (BNC connectors), as shown below: More topologies to discover: Star Topology Mesh or Fully Connected topology Ring topology In a bus topology, terminators are added, as shown by the red squares in the above figure at the ends, to prevent reflection of signals. In a bus topology, only one device may communicate at a time. To avoid collision of packets, all other devices should wait until the bus line is free for them to communicate. A protocol called Distribute Access Protocol (DAP)

Network topologies are all about how the networking devices are connected. Suppose you are provided with a switch and 4 computers, there are numerous ways that these can be connected. The following diagram illustrates some ways of connecting them : Therefore, network topologies is about studying and connecting such computers in different patterns. When we connect in different orientations,we have to particularly pay attention to the pros and cons of each method rather than just using a particular topology randomly. Therefore, this blog post will discuss about the different topologies, their pros and cons and where each of these topologies are typically used. Star topology- A star topology, as shown below, is a topology where all the computers are connected to one centralized hub or switch. Therefore, each of these equipment are given the same opportunity (direct) to contact the switch and all devices radially span out from the centralized hub or switch. In this

In simple terms, both hubs and switches are used to connect devices, as shown below. However, hubs work differently from switches in their operations (that is in how they send packets).  How does a hub work? When a hub is connected as shown above to all computers, then data is broadcast to all the devices connected. For example, consider the diagram below. Suppose that computer A needs to send data to computer C.  Then it first sends data to the hub, where all the devices are connected, and then the hub will send this data to all the devices. Simply, a hub does not filter the addresses and sends a packet it receives to all the devices connected to it as shown below. Every computer checks the destination address of the packet and if the destination address of the packet match with that of the computer, the packet is accepted. Therefore, this is not an efficient approach of exchanging data. Furthermore, this nature of data sharing leads to sh