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These are the user uploaded subtitles that are being translated: 1 00:00:01,170 --> 00:00:07,150 Tell everybody we are starting our CCN of course with dynamic routing protocols 2 00:00:10,430 --> 00:00:18,240 if you want to make running in our network we have two options and they are tatic routing and dynamic 3 00:00:18,240 --> 00:00:27,860 routing static running running tables in specific rather to be set up by the network administrator dynamic 4 00:00:27,860 --> 00:00:35,840 Radi use running Perl of course that dynamically discone or destinations and how to get them dynamic 5 00:00:35,840 --> 00:00:44,900 routing Al's rodding tables rather to change if a rather under rug goes down or if a new work is added 6 00:00:45,830 --> 00:00:53,990 in dynamic routing writing protocols running in ralliers continuously exchange network status updates 7 00:00:53,990 --> 00:01:01,910 between each other as broadcast or multicast with the help of routing update message sent by the routing 8 00:01:01,910 --> 00:01:10,290 protocols rather it can continue to update the writing table when our end or topology change happens. 9 00:01:12,820 --> 00:01:18,940 And let's take a look to the enterprise network infrastructure in an enterprise infrastructure. 10 00:01:18,950 --> 00:01:24,890 We have four main parts the first part is HQ. 11 00:01:25,070 --> 00:01:28,070 The second one is branch offices. 12 00:01:28,550 --> 00:01:34,360 The third one is data centers and the last one is the internet edge. 13 00:01:34,490 --> 00:01:42,040 Normally place that would collect traffic there which are coming from the branch offices and in data 14 00:01:42,040 --> 00:01:51,970 centers we have servers Lord balancers and some corner or key words such as Carruthers and corsets and 15 00:01:51,970 --> 00:01:52,950 something like that. 16 00:01:53,200 --> 00:01:59,830 An Internet edge is the place that we are using when were going to the Internet site where we try to 17 00:01:59,830 --> 00:02:03,470 use protocols in enterprise network infrastructure. 18 00:02:03,550 --> 00:02:06,210 We need to take care of something. 19 00:02:06,640 --> 00:02:11,640 Its recommended to use a single Roding protocol within the company work. 20 00:02:12,100 --> 00:02:21,340 And if there is a geographical or dispersed structure is recommend that they use BGP with ISP and OSPF 21 00:02:21,400 --> 00:02:28,460 or IA GAAP for the internal network. 22 00:02:28,490 --> 00:02:32,370 So how do we choose which who are the protocol we are going to use. 23 00:02:32,390 --> 00:02:40,540 The first thing we need to ask then is what is the size of our network if thats a real small app. 24 00:02:40,580 --> 00:02:51,050 For example we can use rep but if its a huge network and its our internal size or its path would be 25 00:02:51,050 --> 00:02:52,730 better for example. 26 00:02:52,910 --> 00:03:01,080 The second thing we need to ask is do I just use Cisco for example some protocols or some technologies 27 00:03:01,230 --> 00:03:04,450 are just used with Cisco devices. 28 00:03:04,560 --> 00:03:11,100 GAAP was Cisco propria the before but that's an industrial standard right now. 29 00:03:11,250 --> 00:03:18,010 But before we could we could just use edgier with the Cisco Two-Eyes. 30 00:03:18,110 --> 00:03:24,530 The third thing we need to take care is what is the porticoes convergence time Corrigan's time is a 31 00:03:24,530 --> 00:03:30,310 really really important point we need to focus on and we are going to take a look to this one. 32 00:03:31,160 --> 00:03:37,300 And the last thing we need to ask is What is the scale ability of the protocol as well. 33 00:03:39,160 --> 00:03:50,300 We are at Chegg all of these steps and we are going to take a deeper look in our next sleights Lets 34 00:03:50,470 --> 00:03:54,650 take a look to the IGMP and Egypt right now. 35 00:03:54,660 --> 00:04:03,230 I PS support small medium and large scale organizations but they are scalable it is limited. 36 00:04:03,370 --> 00:04:05,940 They can quickly coerce work. 37 00:04:06,010 --> 00:04:17,120 The most commonly used is are yeah GAAP and OSPF e.g. people are used to exchange routes between different 38 00:04:17,210 --> 00:04:23,630 autonomic systems and BGP is the only AJP use today. 39 00:04:23,930 --> 00:04:31,580 The main function of the BJP is to exchange a large number of froths But when different other systems 40 00:04:37,190 --> 00:04:44,990 are running are the code pipes we have three types of routing protocols and are distance Whitter links 41 00:04:45,000 --> 00:04:48,130 they and their pet vector. 42 00:04:48,660 --> 00:04:56,910 This doesn't work the protocols runs according to hop count every browser knows as much as the neighbor 43 00:04:56,940 --> 00:05:05,760 tells him there's no network map on Rather's and we became you an example rip and edge or pay for the 44 00:05:06,090 --> 00:05:09,860 distance vector protocols and links. 45 00:05:09,990 --> 00:05:17,330 They rather is running with these protocols can extract board member off the entire network. 46 00:05:17,770 --> 00:05:23,930 That is they have the knowledge of the always between two points. 47 00:05:24,010 --> 00:05:31,210 Thus they collect all the subnets in a tree and make the best decision about which way to go with the 48 00:05:31,420 --> 00:05:32,470 shortest path. 49 00:05:32,620 --> 00:05:42,670 First algorithm they decide according to Ben read play an asshole or an impersonator. 50 00:05:42,910 --> 00:05:48,680 Rather information is used to determine the best drugs similar to this inspector. 51 00:05:48,850 --> 00:05:55,070 Rather just do not have or met. 52 00:05:55,260 --> 00:06:02,450 Let's take a look to the importance of the Colmer just now right now Corden's is the time it takes for 53 00:06:02,450 --> 00:06:09,630 the others to notice the change in the work to share information about the change with each other and 54 00:06:09,630 --> 00:06:13,170 to make the necessary calculations to find the best route. 55 00:06:13,330 --> 00:06:21,490 Again today Komori Jones is a really really really big and important point. 56 00:06:21,490 --> 00:06:31,570 For example if there's a problem on your network your network needs to work in one or two seconds in 57 00:06:31,570 --> 00:06:32,370 some protocols. 58 00:06:32,380 --> 00:06:39,230 It takes really a long time to converge and they are not preferred in today's networks. 59 00:06:42,430 --> 00:06:48,800 And the left think we're going to talk about is the route summarization summarization reduces throttling 60 00:06:48,910 --> 00:06:56,960 load and improves the stable D and scalability of shared driving information between routers and the 61 00:06:57,010 --> 00:07:07,040 figure as you can see we have four brothers and we have some routes in here 22 in year two and three 62 00:07:07,030 --> 00:07:20,740 in here 20 and 21 in here we have four separate routes as you can see but rather a carrier present this 63 00:07:20,830 --> 00:07:31,610 fall works using a single network these four networks four separate Oist can be summarized as to where 64 00:07:31,620 --> 00:07:40,820 it is 0 0 and Fleisch 14 and you can see that the summer Mascaret is used here is Fleisch 610. 7482