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Overview:
The course instructs network administrators of campus area network sites on the use of advanced multilayer switches in implementing a scalable topology based upon Cisco Systems technologies.
Who Should Attend:
Channel Partner / Reseller Customer Employee
At Course Completion:
After completing this course, students will be able to: - Describe the Campus Infrastructure module of the ECNM - Define VLANs to segment network traffic and manage network utilization - Explain the procedure for configuring both 802.1Q and ISL trunking between two switches so that VLANs that span the switches can connect - Describe how VLAN configuration of switches in a single management domain can be automated with the Cisco proprietary VTP - Implement high availability technologies and techniques using multilayer switches in a campus environment - Describe WLANs - Describe and configure switch infrastructure to support voice - Describe and implement security features in a switched network
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| Prerequisite(s) or equivalent knowledge: |
Interconnecting Cisco® Network Devices (ICND)
Cisco® Introduction to Cisco® Networking Technologies (INTRO)
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| Prerequisite Comments: |
Topics covered in the Interconnecting Cisco Network Devices (ICND) course.
A student enrolled in the Cisco Career Certification program must be a Cisco Certified Network Associate (CCNA) prior to taking this course.
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| Outline: |
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| Lesson 1: Introduction to Campus Networks |
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| Lesson 2: Defining Virtual Networks (VLANs) |
Implementing Best Practices for VLAN Topologies
Implementing VLANs
Implementing Trunks
Propagating VLAN Configurations with VTP
Correcting Common VLAN Configuration Errors
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| Lesson 3: Implementing Best Practices for VLAN Topologies |
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| Lesson 4: Implementing Inter-VLAN Routing |
Describing Routing Between VLANs
Enabling Routing Between VLANs on a Multiplayer Switch
Deploying CEF-Based Multilayer Switching
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| Lesson 5: Implementing Trunks |
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| Lesson 6: Propagating VLAN Configurations with VTP |
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| Lesson 7: Correcting Common VLAN Configuration Errors |
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| Lesson 8: Implementing Spanning Tree |
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| Lesson 9: Describing the STP |
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| Lesson 10: Implementing RSTP |
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| Lesson 11: Implementing MSTP |
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| Lesson 12: Configuring Link Aggregation with EtherChannel |
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| Lesson 13: Implementing Inter-VLAN Routing |
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| Lesson 14: Describing Routing Between VLANs |
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| Lesson 15: Enabling Routing Between VLANs on a Multilayer Switch |
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| Lesson 16: Deploying CEF-Based Multilayer Switching |
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| Lesson 17: Implementing High Availability in a Campus Environment |
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| Lesson 18: Configuring Layer 3 Redundancy with HSRP |
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| Lesson 19: Optimizing HSRP |
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| Lesson 20: Configuring Layer 3 Redundancy with VRRP and GLBP |
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| Lesson 21: Wireless LANs |
Introducing WLANs
Describing WLAN Topologies
Explaining WLAN Technology and Standards
Configuring Cisco WLAN Clients
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| Lesson 22: Implementing WLANs |
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| Lesson 23: Configuring WLANs |
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| Lesson 24: Configuring Campus Switches to Support Voice |
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| Lesson 25: Planning for Implementation of Voice in a Campus Network |
Accommodating Voice Traffic on Campus Switches
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| Lesson 26: Minimizing Service Loss and Data Theft in a Campus Network |
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| Lesson 27: Understanding Switch Security Issues |
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| Lesson 28: Protecting Against VLAN Attacks |
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| Lesson 29: Protecting Against Spoof Attacks |
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| Lesson 30: Describing STP Security Mechanisms |
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| Lesson 31: Preventing STP Forwarding Loops |
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| Lesson 32: Securing Network Switches |
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