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SWITCH: Implementing Cisco IP Switched Networks - 642-813 This training is designed to help students prepare for Cisco CCNP(R) certification. The SWITCH course is one of three components in the CCNP curriculum. SWITCH is designed for network engineers with at least one year of professional work experience, who are ready to advance their skills and work independently on complex network solutions. Students will learn to plan, configure and verify the implementation of complex enterprise switching solutions using Cisco's Campus Enterprise Architecture. The course also covers secure integration of VLANs, WLANs, voice and video traffic into campus networks. Delivery of Videos: You receive 3 DVDs or 12 Months Online On-Demand access, featuring instructor-led classroom sessions with full audio, video and demonstration components. Limited Time Only - When you purchase this set of videos we will send you absolutely FREE our SWITCH Network Visualizer 7.0 simulator. This is a $79 value. We will send you a download link and license for this software. Price: $595
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The Certified Cisco Instructor:
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Kenneth Mayer - Certified CEH Trainer (CCSI, MCT, CCNP, CCDA) Ken is a Microsoft Certified Trainer as well as a Cisco Trainer, Linux Trainer and Security Consultant. He started his career in computer technology in the 1980's and has gone on to offer a wide variety of IT training and high level consulting projects for Fortune 500 companies across the United States and Western Europe. Ken has been involved in nearly all aspects of the Enterprise Network Architecture, from the Network Operating systems of Microsoft, Novell, and Linux platforms to the infrastructure design, implementation, and management using Cisco and Juniper products. His many certifications include MS Networking Trainer & Consultant - Windows 2003/2008, Microsoft Certified Instructor (MCT), Cisco Certified Instructor (CCSI), CCNA, CCDA, CCNP, CISSP, Juniper Certified Instructor, Juniper JNCIA, JNCIS, JNCIP (M-Series), Juniper JNCIS (Enterprise Routing), Juniper JNCIA/S (FWV/SSL/IDP), Certified Ethical Hacker (EC Council) certified trainer and consultant, Certified Computer Examiner (Digital Forensics), Certified Pen Testing Specialist and Instructor. |
Course Introduction
Course Introduction
Module 1 - Analyzing Campus Network Designs
Campus Network Design
Overview of Cisco SONA Benefits of SONA Layers in the Heirarchical Model Enterprise Campus Architecture Access Layer Distribution Layer Core Layer Is a Core Layer Needed? Campus Core Layer Small Campus Network Medium Campus Network Data Center Infrastructure Overview Network Traffic Types Client Server Farm Applications Client Enterprise Edge Applications Section 01 Summary PPDIOO Network Life-Cycle Approach Benefits of the Life-Cycle Approach Planning an Implementation Major Implementation Components Example: Summary Implementation Plan Example: Detailed Implementation Play Section 02 Summary Demo - Topology Module 1 Review Module 2 - Implementing VLANs in a Campus Network
1.1 VLANs
Implementing VLANs VLAN Deployment End-to-End VLANs vs. Local VLANs Planning an End-to-End VLAN Implementation VLAN Configuration Verifying the VLAN Configuration Trunk Configuration Demo - End-to-End VLANs Switchport Mode Interactions Trunk Configuration Recommendations VTP Configuration Verifying the VTP Configuration Common Problems with VTP Configuration Demo - VTP Configuration Verifying General VLAN Operations Common Trunk Link Problems Example of a Troubleshooting Process Resolving Trunk Link Problems Issues with 802.1Q Native VLAN Section 01 Summary Access Switch: Protected Port About PVLANs PVLAN Port Types Isolated PVLAN Configuration Isolated PVLAN Configuration (1) Isolated PVLAN Configuration (2) Isolated PVLAN Configuration (3) Isolated PVLAN Verification Demo - Private VLANs Demo - Promiscuous Mode Community PVLAN Configuration Community PVLAN Configuration (1) Community PVLAN Configuration (2) Community PVLAN Configuration (3) Community PVLAN Verification PVLAN Example PVLANs Across Multiple Switches Section 02 Summary Multiple Links EtherChannel PAgP and LACP PAgP Modes LACP Modes How to Configure Port Channels Using EtherChannel Guidelines for Configuring EtherChannel How to Configure Layer 2 EtherChannel How to Verify EtherChannel How to Configure EtherChannel Load Balancing Demo - Ether Channel Section 03 Summary Module 2 Review Module 3 - Implementing Spanning Tree
Implementing Spanning Tree
STP Standards Comparison of Spanning-Tree Protocols About STP Spanning-Tree Cost and Priority Default Spanning-Tree Configuration PVRST+ Configuration RSTP Port Roles Spanning-Tree Port Types and States RSTP State Transitions RSTP Proposal-Agreement Sequence RSTP Link Types RSTP Edge Ports PortFast Configuration Bridge Priority with Extended System ID Verifying PVRST+ Demo - Spanning Tree Demo - Spanning Tree Cost Introducing MSTP MST Regions Extended System ID in Bridge ID Field Implementing MST Verifying MSTP Summary 01 Review Cisco STP Toolkit Protecting the Operation of STP BPDUGuard Configuration BPDUFilter Configuartion RootGuard Verifying RootGuard Before LoopGuard With LoopGuard Configuring LoopGuard Unidirectional Link Failure Configuring UDLD Comparing LoopGuard with UDLD Recommended Practices - UDLD Configuration Implementing a Spanning-Tree Protocol Spanning-Tree Recommendations FlexLinks in the Access Layer Section 02 Summary Module 3 Review Module 4 - Implementing Inter-VLAN Routing
Inter-VLAN Routing
Inter-VLAN Routing Using an External Router Router on a Stick Exteral Router Configuration Demo - Router on a Stick External Router: Advantages and Disadvantages Routed vs. Switched Campus Architecture Switch Virtual Interfaces SVI Configuration SVI autostate exclude Command Demo - SVI Routed Ports on a Multilayer Switch Configuration of a Routed Interface Demo - Layer 3 Port Layer 2 EtherChannel vs. Layer 3 EtherChannel Configuration of Layer 3 EtherChannel Verification of SVIs and Routed Interfaces Routing Protocol Configuration Verification of Routing Protocol DHCP Service About DHCP DHCP Configuration DHCP with the ip helper Command Verification of the DHCP Operation Section 01 Summary Multilayer Switching IP Unicast Frame and Packet Rewrite CAM and TCAM Tables Distributed Hardware Forwarding Layer 3 Switch Processing Cisco Switching Methods Route Caching Topology-Based Switching Multilayer Switches Based on Cisco Express Forwarding Verifying Cisco Express Forwarding Section 02 Summary Module 4 Review Module 5 - Implementing a Highly Available Network
High Availability
Components of High Availability Redundancy Technology People Processes Tools Resiliency for High Availability Network-Level Resiliency High Availability and Failover Times Optimal Redundancy Provide Alternate Paths Avoid Too Much Redundancy Avoid Single Points of Failure Cisco NSF with SSO Routing Protocol Requirements for Cisco NSF Section 01 Summary Layer 2 Distributed VLANs on Access Switches Layer 2 Local VLANs on Access Switches Layer 3 Access-to-Distribution Interconnection Daisy-Chaining Access Layer Switches Daisy-Chaining Access Switch Issues StackWise Technology Access Switches Avoiding Too Little Redundancy Impact of Uplink Failure Section 02 Summary Network Management Overview Syslog Overview Syslog Features Cisco Syslog Message Standard Example: Syslog Messages System Log Configuration Demo - Logging SNMP Overview About SNMPv2 About SNMPv3 SNMP Recommendations SNMP Configuration Demo - SNMP SLA Review IP SLA Measurements IP SLA Operations IP SLA Source and Responder IP SLA Operation with Responder IP SLA Responder Time Stamps IP SLA Configuration IP SLA Verification Section 03 Summary Module 5 Review |
Module 6 - Implementing Layer 3 High Availability
First-Hop Redundancy
Routing Issues: Using Proxy ARP Routing Issues: Using Default Gateways Router Redundancy Router Redundancy Failover HSRP Configuration Virtual Router MAC Address Forwarding Through Active Router Active and Standby Routers HSRP States HSRP State Transition HSRP Priority and Preemption HSRP and STP HSRP Authentication HSRP and Timers HSRP Timer Configuration HSRP Versions Displaying the Standby Status HSRP Interface Tracking Tracking Options HSRP and IP SLA Tracking Demo - HSRP Multiple HSRP Groups Multiple HSRP Group Configuration Monitoring HSRP Section 01 Summary HSRP vs. VRRP About VRRP VRRP Operations Process VRRP Configuration About GLBP GLBP vs. HSRP GLBP Operations GLBP Operation GLBP Interface Tracking GLBP Weights and Decrements GLBP Configuration GLBP and VLAN Spanning Section 02 Summary Module 6 Review Module 7 - Minimizing Service Loss and Data Theft in a Campus Network
Minimizing Service Loss and Data Theft
Overview of Switch Security Modularizing Internal Security Reasons for Internal Security Rogue Devices Switch Attack Categories MAC Flooding Attack Port Security Prevents MAC-Based Attacks Configuring Port Security on a Switch Verifying Port Security Verifying Port Security (Cont.) Configuring Sticky MAC Addresses Demo - Port Security AAA Network Configuration Configuring User AAA Authentication Demo - Authentication 802.1X Port-Based Authentication Configuring 802.1X Section 01 Summary Explaining VLAN Hopping VLAN Hopping with Double Tagging Mitigating VLAN Hopping Types of ACLs Configuring VACLs Demo - VACL Section 02 Summary Cisco Catalyst Intergrated Security Features DHCP Spoofing Attacks DHCP Messages DHCP Snooping Protects Against Rogue and Malicious DHCP Servers DHCP Snooping Configuring DHCP Snooping Verifying DHCP Snooping ARP Poisoning DAI Protection Against ARP Poisoning About DAI Configuring DAI IP Source Guard Protection Against Spoofed IP Addresses IP Source Guard Catalyst Intergrated Security Configuration Section 03 Summary Discovering Neighbors with Cisco Discovery Protocol Neighbor Discovery Protocols Cisco Discovery Protocol Configuration Demo - Neighbor Discovery LLDP Configuration Vulnerabilities of Discovery Protocols Vulnerabilities of the Telnet Protocol About SSH Configuration of SSH Configuration of vty ACLs Configuration of an HTTP Server Section 04 Summary Module 7 Review Module 8 - Accommodating Voice and Video in Campus Networks
Voice and Video
Unified Communications IP Telephony Components Characteristics of Voice and Data Video Applications Voice and Video Traffic Requirements for Voice, Data, and Video Traffic Voice and Video in the Campus Network Section 01 Summary Meeting the Requirements Voice Implementation Steps Voice VLANs IP Telephony Extends the Network Edge Multi-VLAN Access Port Voice VLAN Configuration Demo - Voice VLANs Power Sources for Access Points and IP Phones Power over Ethernet (PoE) Power over Ethernet 802.3af New PoE Developments PoE Switch Switch Power Budget PoE Switch Port Status Additional VoIP Services Test Plan Section 02 Summary High Availability for VoIP and Video Building a Voice, Video, and Data Campus Network Determining Equipment and Cabling Needs Resource Contention Recommended Practices: QoS QoS in the Campus Network Classification and Marking Layer 2 Marking: 802.1p, CoS Layer 3 Marking: IP Precedence, DSCP Classification Tools: Trust Boundaries Cisco IP Phone Connected to a Switch Voice VLAN Configuration 2 Demo - MLS QOS Cisco AutoQoS Cisco AutoQoS Configuration Monitoring Cisco AutoQoS Section 03 Summary Module 8 Review Module 9 - Integrating Wireless LAN into a Campus Network
Wireless LAN
Cisco Unified Wireless Network Components Wireless LAN 2 WLANs and LANs Similarities Between WLANs and LANs Differences Between WLANs and LANs Summary of Differences Between WLANs and LANs WLAN AP Topology About SSIDs SSID and VLAN Support Client Roaming Layer 2 vs. Layer 3 Roaming Security on WLANs and LANs Section 01 Summary Cisco WLAN Implementations Standalone WLAN Solution 1 Traffic Flow Between Wireless Clients - Standalone WLAN Solution Controller-Based WLAN Solution 1 Controller-Based WLAN Solution 1 (Cont.) Traffic Flow Between Wireless Clients - Controller-Based WLAN Solution About H-REAP Comparison of WLAN Solutions Types of WLAN Controllers Standalone WLAN Solution 2 SSIDs, VLANs, and Trunks in the Standalone Solution Controller-Based WLAN Solution 2 SSIDs, VLANs, and Trunks in the Controller-Based Solution SSIDs, VLANs, and Trunks with the H-REAP Controller-Based AP Protocol WLC Ports and Protocols Section 02 Summary AP and Controller Placement Distributed WLC Deployment Centralized WLC Deployment WLAN Devices Connected to Switches WLAN Device Connections Standalone AP and H-REAP Controller-Based AP WLAN Controller 4400 Series Controller with Link Aggregation Link Aggregation Switch Configuration for Link Aggregation Cisco WiSM in Catalyst 6500 Series Switch Cisco WiSM in Catalyst 6500 Series Switch (Cont.) Gathering Requirements Implementation Plan Test Plan Section 03 Summary Course Closure |
