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00:33:54 |
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00:28:45 |
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00:23:36 |
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Switch VLANs: Understanding VLANs
VLANs have absolutely changed the face of networks over the last decade; it is rare to walk into any large network that is not built upon a VLAN foundation. This video walks you through the definition of VLANs and discusses how to architect VLANs for your network.
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00:16:09 |
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Switch VLANs: Understanding Trunks and VTP
The VLAN discussion continues through the ideas of VLAN Trunking and the VLAN Trunking Protocol (VTP). These allow VLANs to stretch through your entire organization rather than remaining on a single switch.
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00:39:07 |
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00:35:58 |
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Switch VLANs: Configuring VLANs and VTP, Part 2
Installing redundant switch links in a network environment is absolutely critical to a network's success. At the same time, installing redundant links in a network environment can cause the entire network to crumble in a few seconds. Interested? Join Jeremy as he discusses the place of the Spanning Tree Protocol (STP) in network environments.
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00:39:36 |
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00:28:18 |
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Switch STP: Configuring Basic STP
While STP is operational on every Cisco switch by default, it needs to be modified to work optimally. This video walks you through the initial STP implementation and optimization.
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00:21:16 |
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Switch STP: Enhancements to STP
Because STP was created many years ago, it is not optimized for the speedy convergence that networks require in our modern times. This video discusses the recent STP optimizations implemented through the Rapid STP protocol.
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00:29:54 |
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00:29:23 |
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Subnetting: Understanding VLSM
If there's one concept everyone in the Cisco must know, it's IP subnetting. ICND2 expands on the subnetting foundations of ICND1 by introducing Variable Length Subnet Masking (VLSM). Keep in mind, the original subnetting videos from the ICND1 series are available as an appendix to this series.
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00:18:42 |
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Routing Protocols: Distance Vector vs. Link State
The ICND1 series focused primarily on Distance Vector routing protocols such as RIP. The ICND2 series branches into the Link State and Hybrid routing protocols. This video explores the difference between these routing protocol categories and discusses the problems associated with Distance Vector routing loops.
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00:26:25 |
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Routing Protocols: OSPF Concepts
OSPF is, by far, the most popular routing protocol in the world. Despite its popularity, it is also one of the most complex routing protocols in existence. In this video, Jeremy discusses the key concepts behind the OSPF routing protocol.
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00:30:36 |
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Routing Protocols: OSPF Configuration and Troubleshooting
CCNA training continues with; It's now time to implement the OSPF concepts in our network. This video walks you through the conversion of the ICND2 office network from RIP to OSPF. Jeremy goes quite a bit beyond the standard CCNA curriculum to demonstrate a multi-area OSPF configuration that includes route summarization!
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00:39:53 |
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Routing Protocols: EIGRP Concepts and Configuration
Cisco created EIGRP to combine the best features of Distance Vector (easy to configure) and Link State (many features) into a single routing protocol. This video discusses the concepts and configuration of the EIGRP routing protocol.
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00:32:28 |
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Access-Lists: The Rules of the ACL
Cisco access-lists are used not only for security purposes, but for just about every major network configuration you will find on a Cisco router. This video discusses the key concepts behind access-lists and their configuration.
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00:27:44 |
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Access-Lists: Configuring ACLs
CCNA training continues with; Access-lists in action! This video walks you through the configuration of standard access-lists in practical scenarios.
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00:34:40 |
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00:48:42 |
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NAT: Understanding the Three Styles of NAT
You'll be hard-pressed to find any network in operation that is not using Network Address Translation (NAT) in some form. In this video, Jeremy walks through the three forms of NAT implemented in today's networks.
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00:20:00 |
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00:35:41 |
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WAN Connections: Concepts of VPN Technology
It's time to turn our attention to the Wide Area Network (WAN). One of the fastest growing "WAN technologies" is not really a WAN technology at all: Virtual Private Networks (VPNs). VPNs use existing Internet connections to connect remote offices and users. In this video, Jeremy walks you through the place of VPNs in today's network and the basics of VPN security.
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00:33:20 |
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WAN Connections: Implementing PPP Authentication
Leased Lines are one of the more conventional ways to interconnect office networks. There are two data link protocols used to operate leased line connections in the Cisco realm: HDLC and PPP. This video reviews the benefits of each and reconfigures the ICND2 office network to use PPP authentication.
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00:34:39 |
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WAN Connections: Understanding Frame Relay
Packet Switched networks are still the darling of the WAN link industry, combining the best of two worlds: performance and price. Frame Relay continues to reign as one of the more popular Packet Switched network types. This video discusses the concepts, terminology and design of a Frame Relay network.
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00:28:42 |
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WAN Connections: Configuring Frame Relay
There are two possible ways to configure a Frame Relay network: using a Multipoint or Point-to-Point configuration. In this video, Jeremy sets up both and offers some advice as to what is the best Frame Relay design.
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00:30:52 |
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IPv6: Understanding Basic Concepts and Addressing
Welcome to the Next Generation: TCP/IP version 6 (IPv6). Everything is changing and changing fast. The Internet2 is growing with new networks every day. This video prepares you for the upcoming IPv6 transition by walking through the new addressing standards and communication types.
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00:33:59 |
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IPv6: Configuring, Routing, and Interoperating
Cisco routers have begun to support TCP/IPv6 configurations. This video walks you through the configuration of IPv6 addresses on your routers and even shows the configuration of RIP Next Generation (RIPng)! Finally, Jeremy wraps up this video by discussing strategies to migrate your network from running IPv4 to IPv6.
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00:23:36 |
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00:13:10 |
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Advanced TCP/IP: Working with Binary
This video begins the move to the world of advanced TCP/IP addressing. More specifically, you will learn the skill of IP subnetting. One of the most foundational skills in subnetting is converting from decimal to binary and back. This video carefully explains this skill and provides many examples to practice.
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00:25:51 |
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Advanced TCP/IP: IP Subnetting, Part 1
The first style of subnetting you'll need to learn is the ability to separate IP addresses into subnets based on the number of networks an organization needs. This video walks through the initial style.
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00:55:06 |
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Advanced TCP/IP: IP Subnetting, Part 2
The second style of subnetting you'll need to learn is the ability to separate IP addresses into subnets based on the number of hosts an organization needs in each network. This video explains this style.
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00:22:29 |
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Advanced TCP/IP: IP Subnetting, Part 3
The final style of subnetting you'll need to learn is the ability to reverse engineer subnets based on the IP address and subnet mask that has been given. This video discusses this final style.
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00:19:53 |
