Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:01,199 --> 00:00:06,240 Welcome to Jeremy’s IT Lab. This is\xa0\n 2 00:00:07,120 --> 00:00:11,679 If you like these videos, please subscribe\xa0\n 3 00:00:11,679 --> 00:00:15,919 please like and leave a comment, and share the\xa0\n 4 00:00:16,480 --> 00:00:20,640 Thanks for your help. Also, remember to\xa0\n 5 00:00:20,640 --> 00:00:24,960 to get all of the lab files for this course, so\xa0\n 6 00:00:26,559 --> 00:00:30,640 If you want more labs like these, I\xa0\n 7 00:00:30,640 --> 00:00:34,399 for the CCNA, click the link in the\xa0\n 8 00:00:35,200 --> 00:00:39,920 It’s a network simulator like packet tracer, but\xa0\n 9 00:00:39,920 --> 00:00:44,480 guided labs to not only help you get hands-on\xa0\n 10 00:00:44,479 --> 00:00:50,000 but also deepen your understanding of the exam\xa0\n 11 00:00:50,000 --> 00:00:53,840 certifications, so I feel confident\xa0\n 12 00:00:54,560 --> 00:00:58,719 If you want to get your own copy of NetSim,\xa0\n 13 00:01:00,320 --> 00:01:05,680 In this lab we will do some simple IPv6 address\xa0\n 14 00:01:05,680 --> 00:01:12,480 in this lab than what I showed in the video.\xa0\n 15 00:01:12,480 --> 00:01:19,760 PCs are already configured with IPv4 addresses.\xa0\n 16 00:01:19,760 --> 00:01:26,719 we’re simply going to add IPv6 configurations on\xa0\n 17 00:01:26,719 --> 00:01:35,280 one way of transitioning your network from IPv4\xa0\n 18 00:01:35,280 --> 00:01:41,680 and then slowly transition to using IPv6\xa0\n 19 00:01:43,439 --> 00:01:51,039 In step 1 we are told to enable IPv6 routing on\xa0\n 20 00:01:51,040 --> 00:01:56,800 configure interfaces and routes, the router will\xa0\n 21 00:01:56,799 --> 00:02:04,000 enable IPv4 routing. IPv6 routing, however,\xa0\n 22 00:02:04,000 --> 00:02:09,520 show you what happens if you don’t enable IPv6\xa0\n 23 00:02:10,319 --> 00:02:16,239 So let’s go straight to configuring IPv6\xa0\n 24 00:02:19,360 --> 00:02:36,000 ENABLE. CONF T. Let’s configure them in order.\xa0\n 25 00:02:36,560 --> 00:02:41,120 The interfaces are already enabled, because\xa0\n 26 00:02:41,120 --> 00:02:46,879 so we don’t need to use NO SHUTDOWN.\xa0\n 27 00:02:48,159 --> 00:03:07,633 IPV6 ADDRESS 2001:DB8:0:2::1/64. One more.\xa0\n 28 00:03:09,759 --> 00:03:14,399 Okay, that’s all for the interface configurations.\xa0\n 29 00:03:15,360 --> 00:03:17,840 DO SHOW IPV6 INTERFACE BRIEF.\xa0\xa0 30 00:03:19,520 --> 00:03:24,480 These are the addresses we configured on the\xa0\n 31 00:03:24,479 --> 00:03:29,599 IPv6 addresses were automatically configured,\xa0\n 32 00:03:31,599 --> 00:03:39,280 Next up, let’s configure IPv6 addresses on\xa0\n 33 00:03:40,560 --> 00:03:45,039 And then from this first screen\xa0\n 34 00:03:45,039 --> 00:03:55,599 which should be R1. 2001:DB8:0:1::1. Next,\xa0\n 35 00:03:56,319 --> 00:04:09,519 and set PC1’s IPv6 address. 2001:db8:0:1::2,\xa0\n 36 00:04:11,840 --> 00:04:28,000 Again, set the default gateway. 2001:db8:0:2::1.\xa0\n 37 00:04:28,000 --> 00:04:42,959 /64. Finally, PC3. First set R1 as the default\xa0\n 38 00:04:44,160 --> 00:04:58,080 2001:db8:0:3::2, /64. Okay, now let’s go to step\xa0\n 39 00:04:59,199 --> 00:05:11,759 First, let’s try to ping PC1’s default gateway,\xa0\n 40 00:05:11,759 --> 00:05:23,920 the ping works. Can PC1 ping another interface\xa0\n 41 00:05:23,920 --> 00:05:29,120 it can. So, PC1 can ping it’s default\xa0\n 42 00:05:30,160 --> 00:05:43,920 Can it ping PC2? Let’s try. PING 2001:DB8:0:2::2.\xa0\n 43 00:05:46,240 --> 00:05:56,240 First, let’s ping PC2’s default\xa0\n 44 00:05:56,240 --> 00:06:07,920 that works. How about R1’s G0/0 interface? PING\xa0\n 45 00:06:08,800 --> 00:06:20,319 How about pinging to PC1? PING 2001:DB8:0:1::2.\xa0\n 46 00:06:20,319 --> 00:06:27,279 is that? It’s because I skipped step 1, I didn’t\xa0\n 47 00:06:28,720 --> 00:06:30,240 So let’s go back to R1.\xa0\xa0 48 00:06:32,560 --> 00:06:40,560 Use EXIT to return to global config mode.\xa0\n 49 00:06:42,720 --> 00:06:52,375 Okay, now let’s go back to PC1 and try\xa0\n 50 00:06:52,879 --> 00:06:57,680 Okay, the ping works. So, make sure you\xa0\n 51 00:06:57,680 --> 00:07:05,040 command when configuring IPv6 on a router.\xa0\n 52 00:07:05,040 --> 00:07:15,840 I’ll do an IPv4 ping to PC2. PING 192.168.2.2. 53 00:07:17,199 --> 00:07:21,519 Okay, the ping works, so both\xa0\nIPv4 and IPv6 are working. 54 00:07:22,959 --> 00:07:29,839 Okay, that’s all for this lab. Now let’s take\xa0\n 55 00:07:30,879 --> 00:07:36,480 Okay, here's today's Boson NetSim lab preview.\xa0\n 56 00:07:36,480 --> 00:07:42,000 NetSim for CCNA. It's from Boson's courseware\xa0\n 57 00:07:42,879 --> 00:07:48,079 It's essentially Boson's course for the CCNA\xa0\n 58 00:07:48,079 --> 00:07:53,359 you can do in NetSim. So, I've added a link\xa0\n 59 00:07:53,360 --> 00:07:58,160 So follow that link if you want to check\xa0\n 60 00:07:58,160 --> 00:08:01,439 So, the lab we're going to do\xa0\n 61 00:08:04,079 --> 00:08:11,839 Here is the lab topology. As you can see,\xa0\n 62 00:08:12,399 --> 00:08:18,879 These are the commands you need to know. IPV6\xa0\n 63 00:08:21,360 --> 00:08:27,520 and there are some others we haven't looked\xa0\n 64 00:08:27,519 --> 00:08:34,159 device. The IPv4 addresses and then the IPv6\xa0\n 65 00:08:35,440 --> 00:08:39,840 And these are the tasks. Task\xa0\n 66 00:08:41,679 --> 00:08:45,120 And Task 2, configure IPv6\xa0\n 67 00:08:46,879 --> 00:08:52,960 And then configure IPv6 between Router1\xa0\n 68 00:08:52,960 --> 00:08:58,240 or at least part of task 1 for this lab\xa0\n 69 00:08:58,240 --> 00:09:03,120 current network configuration and configure the\xa0\n 70 00:09:04,240 --> 00:09:08,799 You will only perform steps on the physical\xa0\n 71 00:09:10,159 --> 00:09:17,360 Okay, got it. So A, examine the initial network\xa0\n 72 00:09:17,360 --> 00:09:22,879 of all routers. Do the IPv4 addresses\xa0\n 73 00:09:22,879 --> 00:09:27,919 IP addresses shown in the IP addresses\xa0\n 74 00:09:30,240 --> 00:09:35,840 ENABLE. I don't need CONF T\xa0\n 75 00:09:37,759 --> 00:09:43,688 Serial0/0, that looks correct.\xa0\n 76 00:09:45,679 --> 00:09:55,359 That is correct also. Okay, next I will\xa0\n 77 00:09:57,759 --> 00:10:07,919 Here's FastEthernet0/0, and the IP address is\xa0\n 78 00:10:11,200 --> 00:10:18,560 So, Serial0/0, that is correct.\xa0\n 79 00:10:19,440 --> 00:10:22,480 Okay, and finally let's check on Router4.\xa0\xa0 80 00:10:28,480 --> 00:10:36,480 So, we are checking Serial0/0. That is correct.\xa0\n 81 00:10:38,080 --> 00:10:41,280 What types of IP addresses are\xa0\n 82 00:10:44,320 --> 00:10:52,960 What types...IPv4, I guess. These are public IPv4\xa0\n 83 00:10:52,960 --> 00:10:59,840 about public versus private IPv4 addresses, but\xa0\n 84 00:11:01,679 --> 00:11:08,479 What is the theoretical maximum number of unique\xa0\n 85 00:11:12,000 --> 00:11:19,120 Of this type, I guess they might mean IPv4,\xa0\n 86 00:11:20,080 --> 00:11:26,960 Actually, let me check Boson's answers for this\xa0\n 87 00:11:26,960 --> 00:11:34,800 there are lab solutions. Okay, so the answer\xa0\n 88 00:11:34,799 --> 00:11:41,839 It's not asking specifically which type of\xa0\n 89 00:11:43,440 --> 00:11:48,960 Okay so, and I was correct, the maximum number\xa0\n 90 00:11:53,679 --> 00:11:59,039 Okay, number 4. Why is there a need to\xa0\n 91 00:12:00,320 --> 00:12:06,560 As I covered in the lecture video, there just\xa0\n 92 00:12:06,559 --> 00:12:09,759 where everything is interconnected,\xa0\n 93 00:12:09,759 --> 00:12:16,240 We just need more addresses. Okay, verify\xa0\n 94 00:12:17,200 --> 00:12:20,560 by issuing the ping...okay,\xa0\n 95 00:12:21,759 --> 00:12:33,919 Okay, so let's check. I'm already on Router4,\xa0\n 96 00:12:33,919 --> 00:12:35,919 is pinging from Router4 to Router3.\xa0\xa0 97 00:12:37,600 --> 00:12:42,639 And it works. So the ping from Router3 to Router4\xa0\n 98 00:12:46,000 --> 00:12:51,840 Okay, looks good. Okay, Part\xa0\n 99 00:12:53,679 --> 00:12:58,559 IPv6 addresses will eventually replace\xa0\n 100 00:12:59,120 --> 00:13:05,120 What are the expected benefits of this new type\xa0\n 101 00:13:05,120 --> 00:13:12,000 introduced so far is that there are many many\xa0\n 102 00:13:12,000 --> 00:13:15,919 IPv4 addresses. And really, that's the\xa0\n 103 00:13:18,240 --> 00:13:23,360 What are some of the major differences?\xa0\n 104 00:13:23,360 --> 00:13:28,960 versus an IPv4 address. There are of course\xa0\n 105 00:13:30,159 --> 00:13:34,559 What is the theoretical maximum number?\xa0\n 106 00:13:36,960 --> 00:13:40,000 Let's go down to the answer\xa0\nand see that once more.\xa0\xa0 107 00:13:43,360 --> 00:13:46,879 Well here it is. 3.4 times 10 to the power of 38,\xa0\xa0 108 00:13:47,519 --> 00:13:51,120 which is a just ridiculously\xa0\n 109 00:13:55,840 --> 00:14:00,160 Briefly describe some of the techniques that\xa0\n 110 00:14:00,159 --> 00:14:06,480 IPv6 addressing. Okay, well just in this\xa0\n 111 00:14:07,279 --> 00:14:12,000 'dual-stack', so running both\xa0\n 112 00:14:14,000 --> 00:14:19,200 Okay next, enable IPv6 packet forwarding\xa0\n 113 00:14:19,200 --> 00:14:30,720 Here on Router3, CONF T. IPV6 UNICAST-ROUTING.\xa0\n 114 00:14:33,039 --> 00:14:36,879 Okay, finally, I think I'll\xa0\n 115 00:14:37,919 --> 00:14:44,479 configure static IPv6 addresses for Router3's\xa0\n 116 00:14:44,480 --> 00:14:51,840 interface. Refer to the IP addresses table. Okay,\xa0\n 117 00:14:56,000 --> 00:15:05,200 First, on Router3. INTERFACE S0/0.\xa0\n 118 00:15:06,879 --> 00:15:21,519 and that will be 2001:1:3:1::1/64. Okay, and that\xa0\n 119 00:15:23,600 --> 00:15:30,960 S0/0. Actually, wait...okay,\xa0\n 120 00:15:32,559 --> 00:15:39,741 interface on Router3. So I will 'NO' that command\xa0\n 121 00:15:40,879 --> 00:15:49,120 Use the up arrow and enter the same IPv6\xa0\n 122 00:15:49,120 --> 00:16:04,720 Router4. IPV6 ADDRESS 2001:1:3:1::2/64.\xa0\n 123 00:16:06,000 --> 00:16:18,000 from Router4 to Router3. So I will PING IPV6,\xa0\n 124 00:16:18,399 --> 00:16:25,600 And the ping works. Okay, looks good. So that is\xa0\n 125 00:16:25,600 --> 00:16:32,639 special lab from Boson's courseware for CCNA. So\xa0\n 126 00:16:32,639 --> 00:16:37,360 follow the link in the video description. And\xa0\n 127 00:16:40,639 --> 00:16:44,799 Before finishing today’s video I want\xa0\n 128 00:16:45,519 --> 00:16:48,399 To join, please click the\xa0\n 129 00:16:49,120 --> 00:16:56,560 Thank you to Magrathea, Njabulo, Benjamin, Deepak,\xa0\n 130 00:16:56,559 --> 00:17:04,000 Nasir, Erlison, Apogee, Wasseem, Marko, Florian,\xa0\n 131 00:17:04,000 --> 00:17:09,920 John, Funnydart, Scott, Hassan, Gerrard, Marek,\xa0\n 132 00:17:10,559 --> 00:17:16,319 Sidi, Boson Software, Charlesetta, Devin, Lito,\xa0\n 133 00:17:16,319 --> 00:17:21,839 name incorrectly, but thank you so much for\xa0\n 134 00:17:21,839 --> 00:17:26,480 Channel failed to load, if this is you please\xa0\n 135 00:17:27,599 --> 00:17:33,199 This is the list of JCNP-level members at the\xa0\n 136 00:17:33,839 --> 00:17:38,559 if you signed up recently and your name isn’t\xa0\n 137 00:17:40,400 --> 00:17:43,519 Thank you for watching. Please\xa0\n 138 00:17:43,519 --> 00:17:48,240 like the video, leave a comment, and share the\xa0\n 139 00:17:49,279 --> 00:17:54,879 If you want to leave a tip, check the links in the\xa0\n 140 00:17:54,880 --> 00:18:01,520 and accept BAT, or Basic Attention Token, tips\xa0\n 11677