1 00:00:00,970 --> 00:00:05,950 In the last lecture we discussed about both topology and star topology. 2 00:00:06,920 --> 00:00:14,720 Now, let us see about ring topology in this type of topology, each computer is directly connected 3 00:00:14,720 --> 00:00:17,300 to the other computers within the same network. 4 00:00:18,080 --> 00:00:24,920 Now, as you can see on the screen, the networks data flows from computer to computer, back to the 5 00:00:24,920 --> 00:00:25,430 source. 6 00:00:26,360 --> 00:00:33,020 The ring topology has a lot in common with the topology because if you want to add a network, you have 7 00:00:33,020 --> 00:00:38,660 no choice but to break the cable ring, which is likely to bring down the entire network. 8 00:00:39,530 --> 00:00:43,330 This is one big reason that ring topology isn't very popular. 9 00:00:44,300 --> 00:00:52,160 You just won't run into a lot as I did in the 1980s and early 1990s, where this type of topology was 10 00:00:52,160 --> 00:00:52,650 popular. 11 00:00:53,480 --> 00:00:58,890 It's also pricey because you need to several cables to connect each computer. 12 00:00:58,910 --> 00:01:00,840 It's really hard to reconfigure. 13 00:01:01,340 --> 00:01:06,170 Now, let's say there are 50 pieces in the ring topology, and if you want to add a new piece, you 14 00:01:06,170 --> 00:01:08,720 just have to cut one cable. 15 00:01:09,020 --> 00:01:14,360 And that is why it would require a lot of time and that would bring down the entire topology. 16 00:01:15,710 --> 00:01:22,340 But even with that all being said, if you work at an Internet service provider that is ISP, you may 17 00:01:22,340 --> 00:01:29,600 still find a physical ring topology in use for the technology called Sonnett or some other one technology. 18 00:01:30,410 --> 00:01:37,120 However, you just won't find any local area network having a physical rings anymore. 19 00:01:38,860 --> 00:01:45,790 Also, since one computer goes down, ring topology is easier to troubleshoot, but as I said, it provides 20 00:01:45,790 --> 00:01:52,120 less fault tolerance because if one of the pieces goes down, the entire network goes down. 21 00:01:53,950 --> 00:01:56,020 Next ahead is Mr.. 22 00:01:57,660 --> 00:02:05,100 Now, in this type of topology, you will find that there is a part from every machine to every other 23 00:02:05,100 --> 00:02:06,680 one in the network. 24 00:02:07,620 --> 00:02:14,910 That's a lot of connections, in fact, I can tell you that the methodology can win the prize for most 25 00:02:14,910 --> 00:02:16,740 physical connections per device. 26 00:02:17,840 --> 00:02:21,990 You will never find a missed apology in local area networks anyway. 27 00:02:22,790 --> 00:02:29,600 If ever these days, but you will find a modified version of it known as the hybrid apology used in 28 00:02:29,600 --> 00:02:32,360 the wide area networks, including the Internet. 29 00:02:33,590 --> 00:02:40,550 Now, often hybrid mesh topologies will have quite a few connections between certain places to create 30 00:02:40,680 --> 00:02:41,500 redundancy. 31 00:02:42,080 --> 00:02:48,560 As you can see on the screen, there are four computers and all of all computers have their wires connected 32 00:02:48,560 --> 00:02:50,590 to other remaining three computers. 33 00:02:51,440 --> 00:02:59,990 Now, from this weekend, some of a formula for each and locations or and hosts you can have and in 34 00:03:00,010 --> 00:03:02,870 duplicate and minus one upon two connections. 35 00:03:03,470 --> 00:03:06,440 In our case, there are four hosts. 36 00:03:06,770 --> 00:03:13,100 So let us put the value and is equal to four in the equation and we can get that four into Blackgate 37 00:03:13,100 --> 00:03:15,110 four minus one upon two. 38 00:03:15,710 --> 00:03:17,570 That is six connections. 39 00:03:17,840 --> 00:03:21,530 And you can see on the screen that there are six wires in total. 40 00:03:23,030 --> 00:03:29,750 In methodology, there are a lot of connections, as I said, if there are 50 computers, then 15 to 41 00:03:29,750 --> 00:03:32,040 bracket 50 minus one of one two. 42 00:03:32,480 --> 00:03:33,940 That is a lot of connections. 43 00:03:34,880 --> 00:03:41,840 Next, since there are a lot of connections, we required more number of wires and it's a pricey topology 44 00:03:41,840 --> 00:03:46,370 to install, and that is why mesh topology is not a common topology. 45 00:03:47,770 --> 00:03:54,670 But if one computer fails, we can troubleshoot it quickly because that computer's cables will fail 46 00:03:54,910 --> 00:03:58,320 and we'll get to know that this PC is not working. 47 00:03:58,930 --> 00:04:07,540 But apart from all of the advantages and disadvantages, we can see that mesh topology provides a robust 48 00:04:07,540 --> 00:04:08,650 for tolerance. 49 00:04:09,220 --> 00:04:14,620 Even if one PC fails, the remaining network can communicate with other PCs. 50 00:04:14,950 --> 00:04:20,300 Whereas in the case of ring topology, if one PC fails, the entire network goes down. 51 00:04:20,830 --> 00:04:26,470 And that is why Mesh Toppo hybrid mesh topology is preferred these days in the Internet. 52 00:04:27,520 --> 00:04:33,010 In the next lecture will talk about another two types of topologies, which is point-to-point, topology 53 00:04:33,010 --> 00:04:35,430 and point to multipoint topology. 54 00:04:35,830 --> 00:04:43,420 Also, we will see how to select the right topology based on five to six factors, which I will be determining 55 00:04:43,420 --> 00:04:44,400 in the next lecture. 56 00:04:44,980 --> 00:04:50,500 Before moving ahead, I would like to tell you that if you are liking our lectures and if you are understanding 57 00:04:50,500 --> 00:04:56,080 it, we would like to request you to write a review and just share your experience with us. 58 00:04:56,500 --> 00:05:02,770 Your motivation is very valuable to us, and if you have any issues, please feel free to type in the 59 00:05:02,770 --> 00:05:06,170 review and we will surely try to eliminate our drawbacks. 60 00:05:06,670 --> 00:05:10,710 I hope you will write a review and it just takes 30 seconds. 61 00:05:11,020 --> 00:05:12,850 I will see you in the next lecture.