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These are the user uploaded subtitles that are being translated: 1 00:00:01,050 --> 00:00:04,550 In the section we're going to talk about dynamic writing. 2 00:00:04,800 --> 00:00:13,620 And let's start with the dynamic writing protocols stick rubbing elbows writing tables in specific words 3 00:00:13,780 --> 00:00:21,430 to be set up by the network administrator dynamic wording use writing protocols that dynamically discovered 4 00:00:21,430 --> 00:00:28,900 network destinations and how to get them dynamic writing allows writing tables in rudders to change 5 00:00:28,930 --> 00:00:37,180 if rather on the rug goes down or if a network is added in dynamic running routing protocols running 6 00:00:37,180 --> 00:00:46,180 in routers continuously exchange network status updates between each other as broadcast or multicast 7 00:00:46,510 --> 00:00:53,140 with the help of Rawling update message sent by the routing protocols rather than continuously update 8 00:00:53,140 --> 00:00:54,160 the writing table. 9 00:00:54,340 --> 00:01:02,560 When the error or topology change happens and Nesco here is the good the worse is guys static routing 10 00:01:02,560 --> 00:01:13,120 words the dynamic writing static running is Ed Menil the configure crowding in entry and must be manually 11 00:01:13,210 --> 00:01:14,270 updated. 12 00:01:14,300 --> 00:01:25,120 If topology changes this is suitable for very small networks and requires less C.P. usage and that may 13 00:01:25,120 --> 00:01:35,410 be fun to use two or froma subnetwork Sedrick riding we can use in a subnetwork and it is easy to implement 14 00:01:35,630 --> 00:01:42,590 and we we're just wording one statement that points at destination and the subnet mask and the next 15 00:01:42,590 --> 00:01:43,280 stop. 16 00:01:43,510 --> 00:01:51,100 Let's go ahead with the dynamic routing dynamic writing uses running protocols that dynamically discone 17 00:01:51,370 --> 00:01:58,710 destinations as you now and automatically update that if topology change. 18 00:01:58,720 --> 00:02:00,470 That's the biggest advantage worth. 19 00:02:00,490 --> 00:02:08,290 Biggest advantage when you compare with the static routing and that is suitable for large networks because 20 00:02:08,290 --> 00:02:14,830 of this and where rapid convergence times for that dynamic routing. 21 00:02:14,860 --> 00:02:20,710 And we may require more C-p your let's go ahead. 22 00:02:20,740 --> 00:02:31,600 We have dynamic protocols work rather sands and Lucile's running message on its interfaces Firstly then 23 00:02:31,780 --> 00:02:41,890 rather his message with other others using the same protocol in the third stepbrother's Xchange rather 24 00:02:41,900 --> 00:02:43,730 information each other. 25 00:02:43,960 --> 00:02:52,690 And lastly if rather direct and topology change it advertises things to other riders. 26 00:02:53,380 --> 00:02:57,920 Let's go ahead with IGP and the EU piece. 27 00:02:57,970 --> 00:03:05,930 Actually guys we're two types of dynamic routing protocols and they are I yippies and the Egypt piece 28 00:03:06,420 --> 00:03:15,310 Id piece are used to exchange routes in the same autonomous systems and support small medium and the 29 00:03:15,490 --> 00:03:17,520 large scale organizations. 30 00:03:17,530 --> 00:03:20,770 But scale liberalitie is limited. 31 00:03:20,770 --> 00:03:24,760 For example this is the number 100 as you see. 32 00:03:24,970 --> 00:03:28,940 And here is the inside of the s 100. 33 00:03:29,170 --> 00:03:35,810 So in here the protocols I'm using are the eye piece. 34 00:03:35,820 --> 00:03:36,490 All right. 35 00:03:36,520 --> 00:03:47,720 Let's go ahead and I can quickly commercial network and the most commonly used IGY piece are Yager P 36 00:03:48,160 --> 00:03:53,350 OSPF and the use of rape is very limited. 37 00:03:53,380 --> 00:03:58,170 And I espies also ISIS as the IGP. 38 00:03:58,690 --> 00:04:01,570 And let's go ahead with the EDP. 39 00:04:01,840 --> 00:04:10,780 Egypt is are used to exchange routes between different autonomous systems and BGP is the only Egypt. 40 00:04:10,900 --> 00:04:19,230 Today the main function of the BJP is to Xchange a large number of fronts between different alternate 41 00:04:19,370 --> 00:04:20,230 systems. 42 00:04:20,230 --> 00:04:23,400 For example here is a has 200. 43 00:04:23,500 --> 00:04:25,830 And here is a 100. 44 00:04:26,020 --> 00:04:32,470 If you want to exchange routes between is 100 and the is 200. 45 00:04:32,490 --> 00:04:34,280 We're using Egypt. 46 00:04:34,360 --> 00:04:39,460 And the BJP is the only AJP we are using today. 47 00:04:41,280 --> 00:04:43,590 Let's go with the dynamic wording. 48 00:04:43,610 --> 00:04:53,820 Perko classes we have three classes of dynamic writing porticoes and their distance their links state 49 00:04:54,150 --> 00:04:56,590 and their pet vector. 50 00:04:56,640 --> 00:05:02,990 This is why the protocols route according to the hope count guys. 51 00:05:03,030 --> 00:05:12,720 Every brother knows as much as its neighbor tells him there is no network map on the rudders for example 52 00:05:12,720 --> 00:05:17,600 rape and IGP are the distance away of Pericles. 53 00:05:17,880 --> 00:05:24,900 Let's go to the links that routing protocols rather than running the links still writing protocols can 54 00:05:24,960 --> 00:05:29,230 extract the topology map of the entire network. 55 00:05:29,340 --> 00:05:34,740 That is they have knowledge of all the ways between two points. 56 00:05:34,740 --> 00:05:43,380 Thus they collect all the subnets in a tree and make the best decision about which way to go with the 57 00:05:43,470 --> 00:05:45,940 shortest path algorithm. 58 00:05:46,080 --> 00:05:54,390 They decide according to plan width delay and something like that and the links stay poor because our 59 00:05:54,480 --> 00:06:02,790 OSPF and the ISIS and let's go ahead with the path vectorizing porticos Rodd's. 60 00:06:02,850 --> 00:06:06,750 Information is used to determine the best. 61 00:06:06,750 --> 00:06:09,180 What's similar to this. 62 00:06:09,390 --> 00:06:18,360 This and Schwitters others do not have a network map in Pethick to riding to and the BGP is the only 63 00:06:18,360 --> 00:06:26,830 path vector running per call and here is the worse choice between this inspectors and the links there 64 00:06:26,830 --> 00:06:28,010 porticoes. 65 00:06:28,060 --> 00:06:36,250 This is way too porticos recurred that rather inform its neighbors of topology change parametrically 66 00:06:37,030 --> 00:06:39,150 and their grip. 67 00:06:39,160 --> 00:06:46,780 And yet Europeans I told Jean are pros slight lynxes poor of course have the complete left that map 68 00:06:46,780 --> 00:06:53,410 of the network topology and they choose the best path relying on their topology. 69 00:06:53,410 --> 00:06:58,400 They both and we have no neighbored dependency in here and oil spill. 70 00:06:58,450 --> 00:07:07,480 And I essay's are the links that poor of course and let's go ahead with the class full worthless class 71 00:07:07,490 --> 00:07:17,810 list part of course class food particles in Glasgow particles subnet mask is not sent in writing updates 72 00:07:18,170 --> 00:07:28,630 and we can use class A B or C and we can make class A B or C shearling by using declasse protocols and 73 00:07:28,690 --> 00:07:36,620 as we as they are classless I'm sorry as they are classful we have no CDR or real or some support and 74 00:07:36,620 --> 00:07:38,060 live version 1. 75 00:07:38,090 --> 00:07:48,860 And the GOP which is the old form the IGMP are the class food protocols classless porticos subnet mask 76 00:07:48,860 --> 00:07:54,980 is sent in writing updates and we can make classless writing. 77 00:07:55,130 --> 00:07:58,960 So we have CDR and we had some support. 78 00:07:59,000 --> 00:08:08,100 And version 2 Edgeware P ISIS and the OSPF are the classless protocols. 79 00:08:08,250 --> 00:08:12,600 Here is a general running porticos comparison chart. 80 00:08:12,740 --> 00:08:21,600 And here are the distance vector porticos rape and GOP BJP is perfect. 81 00:08:21,630 --> 00:08:31,110 But you may also see it as distance vectors in some measure the link step porticoes are ISIS and the 82 00:08:31,440 --> 00:08:39,280 OSPF as you can see the classless ones are reversion to the GOP. 83 00:08:39,330 --> 00:08:47,170 I assayers oils P.F. and e.g. peep arms are BGP and above. 84 00:08:47,220 --> 00:08:49,930 If you want to check the wheel or some support. 85 00:08:49,950 --> 00:08:58,140 As I told you in our previous life we don't have allow some support for the Persian one we can't use 86 00:08:58,140 --> 00:09:01,710 the rep in small size the. 87 00:09:02,070 --> 00:09:02,770 We can use. 88 00:09:02,790 --> 00:09:10,860 Yeah Japie ISIS in large networks and we can use BGP in very large networks. 89 00:09:10,920 --> 00:09:18,410 As Internet as well and the metric Kanda of the trip is the hop. 90 00:09:18,620 --> 00:09:21,660 Yeah jumping is a composite metric. 91 00:09:21,720 --> 00:09:32,530 I say as has the metric OSPF metric is known as cost and BGB has paired attributes at as the metric 92 00:09:32,570 --> 00:09:40,230 and we are going to take a deeper look to all of these features on our later sections. 93 00:09:40,380 --> 00:09:48,210 And if you want to check about the convergence time rip current work conquerer can come much slower. 94 00:09:48,410 --> 00:09:52,080 Yes GAAP can converge very fast. 95 00:09:52,260 --> 00:10:01,310 I say is fast and DGP is the slowest merging protocol. 96 00:10:01,520 --> 00:10:11,930 Let's go ahead with the distance Wiktor dynamic routing and rape and the rape and G or guess where others 97 00:10:11,930 --> 00:10:14,970 use the distance with the protocols. 98 00:10:14,990 --> 00:10:23,930 They send updates to their neighbor so they all know what their neighbors says and they don't know the 99 00:10:24,440 --> 00:10:33,840 details in the topology rape and yeah Arpey are the most commonly used distance waiter Porter. 100 00:10:34,070 --> 00:10:42,800 As I told you our purse slide rip is a distance vector protocol rather is that are using grip Pirko 101 00:10:43,070 --> 00:10:51,430 create the old running table based on information exchange between brothers and this for others. 102 00:10:51,620 --> 00:11:02,030 This rather sent running updates each 30 seconds to each other as broadcast for free persion one and 103 00:11:02,090 --> 00:11:13,210 as multicast as is multicast in reape version to re-appears is the Belman for the algorithm guys. 104 00:11:13,310 --> 00:11:24,350 And the actual metric of rip is the hop count Ripken's support a maximum or count of others for example 105 00:11:24,360 --> 00:11:35,640 as you can see on the screen if you want to reach from the rather 1 to 10 0 0 worth 10 0 0 0 wouldn't 106 00:11:35,690 --> 00:11:49,350 work the best path will be the path Abbo the class we will is just one more hoops to get to destination. 107 00:11:49,390 --> 00:11:58,180 But for the link below as you can't see any here we use two more hops which means two more rounders 108 00:11:58,180 --> 00:12:04,660 to get to destination and which means the worst path for the rep. 109 00:12:04,660 --> 00:12:10,850 That's why we are using this path instead of this path. 110 00:12:11,200 --> 00:12:21,120 If we are using rape as a dynamic routing protocol so let's go ahead with how we can establish a running 111 00:12:21,120 --> 00:12:23,740 table in rep. 112 00:12:23,940 --> 00:12:32,520 The first stage in the first stage all others installed they are directly connected to the running table 113 00:12:32,520 --> 00:12:39,030 as you can see rather one installs 10:41 and 10:42. 114 00:12:39,030 --> 00:12:47,550 This guy installs the forty two and three and this guy is two forty three and the forty four. 115 00:12:47,730 --> 00:12:57,210 Then in the next page results are exchanged between neighbors and the routing tables begin to grow. 116 00:12:57,210 --> 00:13:06,450 As you can see in here this guy knows this that works firstly and rather to knows about this and this 117 00:13:06,450 --> 00:13:09,360 guy knows about this one. 118 00:13:09,360 --> 00:13:16,050 Then they are starting to exchange rods with each other. 119 00:13:16,050 --> 00:13:22,370 For example rather to say is rather one that hayride around. 120 00:13:22,440 --> 00:13:36,170 I have a network which is then 14:3 and that is directly connected to me which means zero as Hop counts 121 00:13:36,730 --> 00:13:41,920 and rather one installs this to its warning table. 122 00:13:41,980 --> 00:13:51,910 As you can see the network 10 43 0 0 and the interface is the first eternal 0. 123 00:13:52,420 --> 00:14:04,420 As you can see and the hope count is one because rather two is saying that pay for delivery is directly 124 00:14:04,420 --> 00:14:11,260 connected to me rather who's up and gets this update and says that rather too. 125 00:14:11,320 --> 00:14:15,070 If this guy is directly connected to me. 126 00:14:15,300 --> 00:14:28,000 If this guy is directly connected to you I'm sorry it means 10:43 0 0 is 1 warp ever from me from me 127 00:14:28,240 --> 00:14:31,740 which is actually you. 128 00:14:32,030 --> 00:14:44,530 OK then after all rods are exchanged and as you can see full routing table is established for example 129 00:14:44,890 --> 00:14:55,780 rather 3 and now this Schrott 44 are two rather two and told that this guy is directly connected to 130 00:14:55,780 --> 00:15:05,740 me and rather to installed this as the one who purvey and advertised this route again to rather one. 131 00:15:06,040 --> 00:15:10,030 Rather receive it and so the head rather too. 132 00:15:10,120 --> 00:15:21,040 If this route 44 is one hip hop away from you that means it is two jobs away from me and installed he 133 00:15:21,220 --> 00:15:25,860 installed it with the hope kind of two. 134 00:15:25,930 --> 00:15:30,510 And here is the configuration of the rep. 135 00:15:30,760 --> 00:15:35,430 That's pretty straight forward guys and let's go ahead. 136 00:15:35,550 --> 00:15:38,760 Rather one rather two and rather tree. 137 00:15:38,920 --> 00:15:40,660 We're configuring. 138 00:15:40,670 --> 00:15:48,560 In this example we are typing in the coffee Mothra rather REPP as you can see in here. 139 00:15:49,090 --> 00:15:59,830 And if you're going to use the report into we are typing the version and the two words into them when 140 00:15:59,830 --> 00:16:08,940 you go to see scene here is for rather one way or two directly connected that. 141 00:16:09,280 --> 00:16:16,470 And we're reading this guys in class full state as you know that this is a B-class network. 142 00:16:16,480 --> 00:16:22,690 This is an A-class network so I'm typing the network's statements as the classroom. 143 00:16:22,690 --> 00:16:39,220 This for example network 10 000 for this network and I'm typing 170 to 16 0 0 for this network or rather 144 00:16:40,290 --> 00:16:43,880 and for other to the same logic. 145 00:16:44,070 --> 00:16:50,310 It's just connected to the Senate works as you can see this guy and this guy. 146 00:16:50,310 --> 00:16:59,310 So that's enough that I just happened that were 10 0 0 0 for this and for the other three I'm typing 147 00:16:59,310 --> 00:17:06,110 that 10 000 and the C-Class of this network. 148 00:17:06,110 --> 00:17:06,670 All right. 149 00:17:06,690 --> 00:17:08,150 That's pretty cool. 150 00:17:08,160 --> 00:17:13,490 And two were the rip configuration retails show people of course command. 151 00:17:13,500 --> 00:17:22,320 And we can display the rotting portico we are using which is rippling here and we can see the also the 152 00:17:22,410 --> 00:17:30,300 update timers and the I love it and flash and the whole don't timers as well. 153 00:17:30,300 --> 00:17:35,710 And to avoid the RIP configuration we can also use the Shope Iraq's command. 154 00:17:35,910 --> 00:17:46,980 And in the writing table as you can see we have some entries by the our key word which means the rep 155 00:17:47,160 --> 00:17:48,390 OK. 156 00:17:48,690 --> 00:17:57,990 And if you want to check the rudder to the periodic table by using the choice route command we can see 157 00:17:58,350 --> 00:18:05,310 our commands are unsorry our key words in here as well which is rare. 158 00:18:05,340 --> 00:18:16,920 And for rather two there's learning the does not work and this inner work from this guys as you can 159 00:18:16,920 --> 00:18:33,270 see I'm learning the 16 0 0 on the wire 10:42 0 1 which is here and I'm learning there now via 10:43 160 00:18:33,270 --> 00:18:36,880 0 3 which is here. 161 00:18:37,470 --> 00:18:41,660 Let's go with to reap G rape and G rape. 162 00:18:41,700 --> 00:18:49,130 Next Generation is an extension of rape for supporting IP version 6. 163 00:18:49,170 --> 00:18:56,200 The maxim hope comes again we keep using repinned G is 15. 164 00:18:56,240 --> 00:19:02,540 So let's go ahead how we can configure the Ripp energy in here to configure the rape. 165 00:19:02,690 --> 00:19:12,050 The first thing we should do on our others are the enabling the IP version 6 wadding by typing IP version 166 00:19:12,050 --> 00:19:20,960 6 unicast trawling for H rather than we are getting into the interface mods. 167 00:19:20,960 --> 00:19:24,780 Here is the difference from the Rip configuration. 168 00:19:24,890 --> 00:19:32,960 If repaint the world we are using rip Next-Generation for eye 2006 we are configuring the IP version 169 00:19:32,960 --> 00:19:38,310 6 statements under the interface mods and as you can see here. 170 00:19:38,480 --> 00:19:46,160 So we are getting into the interface more by typing for rather than for example either with the 0 0 171 00:19:46,520 --> 00:19:49,830 and the command kill is pretty straightforward. 172 00:19:49,880 --> 00:19:56,570 I perversions 6 REPP a keyword which you can is arbitrary. 173 00:19:56,570 --> 00:19:58,750 This is my read for this. 174 00:19:58,910 --> 00:20:01,460 And we're typing enabled. 175 00:20:01,580 --> 00:20:09,030 OK that's pretty straightforward and the same thing for the other interfaces as well. 176 00:20:09,530 --> 00:20:18,380 And to verify the rip N-G configuration again we can use the show IP version 6 porticoes this time and 177 00:20:18,380 --> 00:20:25,770 we can see that the IP version 6 swapping protocol and the running port of call name as you can see 178 00:20:25,770 --> 00:20:35,090 in here which you configured as Miree for the previous example and we can also use the show IP version 179 00:20:35,090 --> 00:20:46,190 6 frocked command and we can display our full routing table and we can see the Rudds learn by Ripp again 180 00:20:46,190 --> 00:20:47,330 in here. 181 00:20:47,720 --> 00:20:49,710 Let's go with the links. 182 00:20:49,830 --> 00:20:59,470 Perico runners that are using the least still working protocols held the complete map of network topology 183 00:20:59,710 --> 00:21:07,410 and they choose the best path relying on the top knowledge of table length of wording. 184 00:21:07,420 --> 00:21:10,910 We don't have any dependency to our neighbors. 185 00:21:11,050 --> 00:21:14,650 We don't care about what they tell us. 186 00:21:14,710 --> 00:21:24,060 As the distance vectors OSPF and the essays are the most commonly used links they are algorithms. 187 00:21:24,670 --> 00:21:28,100 Let's go with the Dykstra algorithm. 188 00:21:28,150 --> 00:21:35,630 We have algorithms that we use for links that Walding and one of the most popular is the Dykstra. 189 00:21:35,930 --> 00:21:44,980 Dykstra is an algorithm for finding finding the shortest paths between nodes in a graph which may represent 190 00:21:44,980 --> 00:21:53,770 for example one that works for SBF and I guess I just use this shortest path algorithm to determine 191 00:21:53,770 --> 00:21:57,700 the best path in this algorithm. 192 00:21:57,700 --> 00:22:06,930 We have cost vollies for each path representing the bandwidth of the path and lower cost meals. 193 00:22:07,060 --> 00:22:10,970 Hi is it guys there is the reverse logic in here. 194 00:22:11,140 --> 00:22:30,250 For example best path from A to Z through a C C D D and D to me we have a cost of totally Zen in here 195 00:22:30,690 --> 00:22:33,600 one plus six plus two. 196 00:22:33,900 --> 00:22:34,870 OK. 197 00:22:35,110 --> 00:22:40,920 We can also go from the path A to B and B two years. 198 00:22:40,940 --> 00:22:43,880 Well I'm sorry I'm sorry. 199 00:22:43,890 --> 00:22:46,230 This is actually not. 200 00:22:46,290 --> 00:22:47,800 This is nine. 201 00:22:47,830 --> 00:22:49,280 OK. 202 00:22:49,410 --> 00:22:53,780 One plus six plus two is nine. 203 00:22:53,850 --> 00:22:59,800 And if you were to use this path our cost is totally 10. 204 00:22:59,850 --> 00:23:06,260 And remember that if you were to use repayed near the metric would be the hope. 205 00:23:06,450 --> 00:23:15,300 And there's that this term would be preferred because we are using the just one more hops to get to 206 00:23:15,300 --> 00:23:15,840 it. 207 00:23:16,050 --> 00:23:23,250 While we are using two loaves in here let's go ahead with the link state riding operation. 208 00:23:23,250 --> 00:23:31,040 We have four steps of link state writing operation and in the first step brothers discovered they are 209 00:23:31,080 --> 00:23:39,330 directly connected neighbors and send they help pack cats in the second brother's build blink state 210 00:23:39,390 --> 00:23:45,190 packet LSP which has instead of directly connected playings. 211 00:23:45,340 --> 00:23:55,470 In other words Eliot Spitzer Faludi to all neighbors and stored in a database in the Ford database is 212 00:23:55,470 --> 00:24:01,760 used for course writing a full map of the topology. 213 00:24:02,060 --> 00:24:03,790 Let's go ahead. 214 00:24:04,370 --> 00:24:11,780 As I told in the first brothers this code they are directly connected to neighbors and send the hello 215 00:24:11,810 --> 00:24:20,360 packet's and receive a reply back from the each neighbor running the same protocol in here as you can 216 00:24:20,360 --> 00:24:28,310 see the first of the first step of the links prodding operation is sending and receiving the hello's 217 00:24:28,640 --> 00:24:38,030 and here rather one is sending the hellos from each interface and receiving back the hello packets from 218 00:24:38,030 --> 00:24:40,700 the others to our other three. 219 00:24:40,820 --> 00:24:50,910 Secondly rather build the link state packet which is LSP and which has the link still off directly connected 220 00:24:50,930 --> 00:24:51,860 links. 221 00:24:52,070 --> 00:25:03,010 For example it rather was LSP we had the informations containing the Internet which is 10:41 28 that 222 00:25:03,080 --> 00:25:08,410 0 and we will have with a volley of 5. 223 00:25:08,420 --> 00:25:16,540 As you can see in here and we are also the serial point to point link but rather one and rather two 224 00:25:16,880 --> 00:25:23,670 which is 10:41 26 and 0 never creature which is a cost of 10. 225 00:25:23,900 --> 00:25:33,780 And we also have the serial point to point link between Rather one or the three which is 10:41 to 27 226 00:25:33,800 --> 00:25:40,080 that zero with the cost of 15 in the third step. 227 00:25:40,090 --> 00:25:48,150 LS PS are fluted to all our neighbors and stored in a database. 228 00:25:48,520 --> 00:25:57,310 And finally each other establish links link state database and calculates the best path for destination 229 00:25:57,330 --> 00:26:08,110 that works best path's results are adding to our routing table let's go ahead to the writing table what 230 00:26:08,110 --> 00:26:14,140 is writing table the writing tables was information about. 231 00:26:14,160 --> 00:26:21,990 I IPN it works and how they can be reached either directly or indirectly. 232 00:26:22,190 --> 00:26:30,360 Writing table is use to reach the best path for the destination network. 233 00:26:32,460 --> 00:26:43,210 As you can see here in IPV rather running table and through these we have some frills in the force field. 234 00:26:43,210 --> 00:26:49,060 This field is identifying how the network was learned by the other. 235 00:26:49,120 --> 00:26:58,810 For example if it is learned with your GRB if events long with rep if it's loanword aesthetic wording 236 00:26:58,840 --> 00:27:01,180 or something like that. 237 00:27:01,510 --> 00:27:08,220 The second field identifies the destination network and the third field. 238 00:27:08,240 --> 00:27:18,530 I didn't phrase the administrative distance of the protocol that we're using and here this field identifies 239 00:27:18,530 --> 00:27:29,110 the metric to which the new Would that work and this field in here identifies the next hop this field 240 00:27:29,110 --> 00:27:37,810 in here identifies the amount of elapsed time since the network was discovered and the last field identifies 241 00:27:37,810 --> 00:27:50,200 the outscoring interface on the rudder to reach the destination network as summary to reach the 10 1 242 00:27:50,260 --> 00:27:59,930 1 0 network I'm using GRB with an administration to distance of 90. 243 00:27:59,990 --> 00:28:07,690 And this is my metric and I am reaching to does that work. 244 00:28:07,730 --> 00:28:11,960 Why the this IP address. 245 00:28:12,190 --> 00:28:20,510 And this is the outgoing interface of the rudder to reach the destination. 246 00:28:20,830 --> 00:28:26,720 And this is the time amount of laughs time since the network was discovered. 247 00:28:29,640 --> 00:28:31,360 Let's go to the writing table. 248 00:28:31,370 --> 00:28:38,780 Clone Cisco's IP routing table is not the flight data base guys. 249 00:28:39,000 --> 00:28:48,000 The reading table is actually a hierarchical structure that is used to speed up the lookup process when 250 00:28:48,000 --> 00:28:53,720 locating runs and forwarding packets within this structure. 251 00:28:53,760 --> 00:28:57,570 The hierarchy includes several levels. 252 00:28:57,600 --> 00:29:04,240 Routes are discussed in terms of optimal root level worlds. 253 00:29:04,470 --> 00:29:15,730 Level one parent route and the level 2 child dropped and out of a drought is a running table entry that 254 00:29:15,730 --> 00:29:16,510 contains. 255 00:29:16,540 --> 00:29:17,650 I do. 256 00:29:17,830 --> 00:29:28,240 Next stop IP version address or an exit interface directly connected dynamically learns and local routes 257 00:29:28,330 --> 00:29:30,440 are the ultimate trust. 258 00:29:30,460 --> 00:29:40,720 As you can see and here to identify the ultimate route we should see an interface or eggs point however 259 00:29:40,720 --> 00:29:49,630 you define And that's the thing we should see in ultimate routes as Level 1 route is a route with a 260 00:29:49,630 --> 00:29:59,770 subnet mask equal to or less than the class full mask of the network address L-L run parallel throughout 261 00:29:59,770 --> 00:30:02,160 it is level 1 network. 262 00:30:02,320 --> 00:30:11,520 That route that is subnets at a parent's route can never be an ultimate route and level 2 child route 263 00:30:11,560 --> 00:30:16,060 is a route that is subnet of a class whole network address. 28488