| BSCI- Building Scalable Cisco Interneworks v3.0 |
| |
|
Lab 2-0: Basic Connectivity
Configure routers and verify connectivity of the network. |
Lab 2-1: Configuring and Tuning EIGRP
Configure EIGRP and provide Core scalability by limiting
queries, using EIGRP route summarization, and configuring
EIGRP stub routers. Advertise a default route to EIGRP
stub routers. |
Lab 3-0: Configuring & Examining OSPF in a Single Area
Configure single-area OSPF and manipulate the OSPF router ID
using loopback interfaces & the router-id command. Explore
OSPF packet types and the DR & BDR election process. |
Lab 3-1: Configuring OSPF for Multiple Areas and Frame Relay NBMA
Configure multi-area OSPF and OSPF in NBMA mode
over Frame Relay. |
Lab 3-2: Configuring OSPF for Multiple Areas andFrame Relay P2MP and P2P :
Configure OSPF over Frame Relay using the Point-to-
Multipoint OSPF network type. Also configure OSPF over
Frame Relay the using Point-to-Point OSPF network type. |
Lab 3-4: OSPF Tuning
Understand the OSPF link-state database structure and
the tools available to investigate the link-state database.
Limit the routing table size, then explore the effect of
using route summarization and the effect of using the
various types of OSPF stub areas. |
Lab 4-1: Configuring Integrated IS-IS in Multiple Areas
Configure multi-area integrated IS-IS and IS-IS route summarization.
Learn to optimize IS-IS interfaces and IS types. |
Lab 5-1: Configuring Basic Redistribution
Configure basic route redistribution between OSPF and
RIPv2. Change Administrative Distance on routing
updates and inject a default route into the RIPv2 domain. |
Lab 5-2: Tuning Basic Redistribution With IOS Tools
Tune the redistribution using a route map to translate
RIPv2 metrics into OSPF metrics and filter routing
updates using a distribute list. |
Lab 6-1: Configuring Multihome BGP
Configure EBGP on the enterprise router to connect to
the two ISPs. |
Lab 6-2: Manipulating BGP Path Selection withRoute Maps
Manipulate BGP path selection using MED and local
preference with route maps. |
Lab 7-1: Configuring Multicast Routing
Implement multicast routing, configure PIM sparsedense
mode, analyze a multicast group, configure auto
rendezvous point (RP), and enable a router to join a
multicast group. |
Lab 8-1: Configuring IPv6 Addresses
Enable IPv6 routing globally and configure IPv6 addresses
on all router interfaces that are not shutdown. |
Lab 8-2: Enabling IPv6 OSPF Routing
Configure an IPv6 routing on your pod routers. |
Lab 8-3: Configuring IPv6 Tunnels
Manually configure a IPv6 to IPv4 tunnel. |
| |
Hands-On Labs
Course Content |
| 1. Network Requirements |
2. Configuring EIGRP
• Introducing, Implementing, and Verifying EIGRP
• Configuring Advanced EIGRP Options
• Configuring EIGRP Authentication
• Using EIGRP in an Enterprise Network |
3. Configuring OSPF
• Introducing the OSPF Protocol
• OSPF Packet Types • OSPF Network Types
• Configuring OSPF Routing
• Link State Advertisements
• Configuring OSPF Route Summarization, Special
Area Types, and Authentication |
4. The IS-IS Protocol
• Introducing IS-IS and Integrated IS-IS Routing
• IS-IS Routing Operation
• Configuring Basic Integrated IS-IS |
5. Manipulating Routing Updates
• Operating a Network Using Multiple IP Routing
Protocols
• Configuring and Verifying Route Redistribution
• Controlling Routing Update Traffic
• Implementing Advanced IOS Features: Configuring
DHCP |
6. Configuring Basic BGP
• Explaining BGP Concepts and Terminology
• Explaining EBGP and IBGP
• Configuring Basic BGP Operations
• Selecting a BGP Path
• Using Route Maps to Manipulate Basic BGP Paths |
7. Implementing IP Multicast
• Explaining Multicast
• IGMP and Layer 2 Issues
• Explaining Multicast Routing Protocols
• Multicast Configuration and Verification |
8. Implementing IPv6
• Introducing IPv6 • Defining IPv6 Addressing
• Implementing Dynamic IPv6 Addresses
• Using IPv6 with OSPF and Other Routing Protocols
.using ipv6 and ipv4 |
| |
BCMSN- Building Cisco Multilayer Switched Networks v3.0
Practice Quiz: Describing the Campus InfrastructureModule |
Lab 1-2: Getting Started with Cisco Catalyst Equipment
Lab 2: Configuring VLANs and VTP
Lab 3-1: Configuring Primary and Backup Root Bridges
Lab 3-2: Implementing Rapid-PVST Spanning TreeProtocol
Lab 3-3: Implementing Multiple Spanning Tree
Lab 3-4: Configuring EtherChannel
Lab 3-5: Troubleshooting Spanning Tree
Quiz 4-1: Describing Routing Between VLANs
Lab 4-2: Routing Between VLANs
Lab 5-1: Enabling and Optimizing HSRP
Lab 6-1: Configuring Switches of WLANs
Lab 6-2: Configuring the Controller via the WebBrowser
Lab 6-3: Setting up the Wireless LAN Controller
Lab 6-4: Configuring a Wireless Client (Optional)
Lab 7-1: Configuring IP Telephony Support
Lab 8-1: Apply Security Practices to Secure Devicesin the Campus
Case Study 8-2: Using Security Tools to SecureDevices in the Campus
Lab 8-3: Applying Security Tools |
| |
| |
Hands-On Labs
Course Content |
1. Introduction to Campus Networks
• Course Introduction
• Campus Networks as part of an Enterprise
Network
• Devices in a Nonhierarchical Network
• Layer 2 Network Issues
• Routed Network Issues
• What is a Multilayer Switch
• Issues with Multilayer Switches and VLANs in
Nonhierarchical Network
• The Enterprise Composite Model
• Benefits of the Enterprise Composite Model
• Campus Infrastructure Module |
2. Defining Virtual Networks (VLANs)
• Best practices for VLAN Topologies
• Implementing VLANs
• Implementing Trunks
• Propagating VLAN Configurations with VTP
• Correcting Common VLAN Configuration Errors |
3. Implementing Spanning Tree
• Spanning Tree Protocol
• Preventing STP Forwarding Loops
• Implementing Rapid Spanning Tree Protocol (RSTP)
• Implementing Multiple Spanning Tree Protocol
(MSTP)
• Configuring Link Aggregation and EtherChannel |
4. Implementing InterVLAN Routing
• Routing between VLANs
• Deploying CEF-Based Multilayer Switching
• Enabling Routing Between VLANs |
5. Implementing High Availability in a CampusEnvironment
• Configuring Layer 3 redundancy with HSRP
• Configuring Layer 3 Redundancy with VRRP and
GLBP
• Implementing Hardware and Software Redundancy
in Modular Switches
• Redundant Power Supply Configuration Commands |
6. Wireless Client Access
• Introducing WLANs
• Wireless Theory and Standards
• Implementing WLANs
• Cisco WLAN
• Cisco Wireless Clients
• Configuring Basic WLAN |
7. Configuring Campus Switches to Support Voice
• Planning for Implementation of Voice in a Campus
Network
• Accommodating Voice Traffic on Campus Switches |
8. Minimizing Service Loss and Data Theft in aCampus Network
• Switch Security Issues
• Protecting Against VLAN Attacks
• Protecting Against Spoof Attacks
• Securing Network Switches
• STP Security Mechanisms |
| |
| |
| ISCW- Integrating Secured Converged Wide Area Networks |
| Lab 1: Configuring DSL |
Lab 2: Configuring Frame-Mode MPLS
MPLS can be enabled in service provider core networks to
prepare the network core for MPLS services such as MPLS
VPNs and MPLS-TE. Enabling basic MPLS functionality
within the service provider environment involves enabling
CEF, and LDP, TDP or, in certain cases, both protocols.
In this activity, your network has become an extension
of an existing ISP’s MPLS network. You will configure
and verify Frame-Mode MPLS on your IOS routers to link
your network into the ISP’s network. |
Lab 3: Configuring Site-to-Site IPsec VPNs
You will configure two routers to establish a secure path
between two networks over an untrusted network. The
path will be secured using IPsec protocols, assisted by
the IKE key exchange protocol, which will also enforce
the required traffic protection policy. |
Lab 4: Configuring GRE Tunnels over IPsec Using SDM
You will configure two routers to establish a secure path
between two networks over an untrusted network. The
path will be secured using secure GRE protocol. You will
create a secure GRE tunnel (GRE over IPsec) using SDM. |
Lab 5: Configuring IPsec VPN to Back Up a WANConnection
You will configure an IPsec VPN to back up a WAN connection.
You will use a pre-shared key (a password) to
authenticate the two IPsec/IKE peers to each other. |
Lab 6: Configuring Cisco Easy VPN Server Using SDM
You will configure Easy VPN Server on the HQ router
using SDM, and you will install Cisco VPN Client on your
workstation (student PC) to connect to the Easy VPN
Server. The path will be secured using IPsec protocols,
assisted by the IKE protocol, which will also enforce the
required traffic protection policy. |
Lab 7: Securing Cisco Routers
You will secure Cisco router administrative access with
SDM one-step lockdown. |
Lab 8: Securing Cisco Router Management
You will secure Cisco router administrative access and
configure authenticated NTP communications. |
Lab 9: Configuring AAA Login Authentication andExec Authorization on Cisco Routers
You will configure the perimeter router to work with the
local database and enable a password and line authentication
to provide authentication, authorization, and
accounting services. |
Lab 10: Configuring a Cisco IOS Firewall
You will configure an advanced firewall. Activities
include selecting and configuring the basic firewall
option, selecting and configuring the advanced firewall
option, configuring advanced inspection rules, confirming
your configuration, verifying the firewall for proper
operations, and reviewing the firewall log. |
Lab 11: Configuring Cisco IOS IPS
You will configure Cisco IOS IPS using SDM. Activities
include enabling Cisco IOS IPS on the router, configuring
IPS to scan all traffic, configuring IPS to use default signatures,
verifying default global settings, delivering the
configuration to the router, and monitoring IPS events
using the SDEE view. |
Lab 12: Troubleshooting Security
Given a network with security holes, you will determine
where the holes are and secure the network. Activities
include troubleshooting secure management, mitigating
system vulnerabilities, troubleshooting IPsec VPN, and
troubleshooting availability. |
| |
Hands-On Labs
Course Content
|
1. Network Requirements
• The In and the SONA framework
• Cisco conceptual network models, such as Cisco
Enterprise Architecture and Cisco hierarchical
network model
• Requirements for establishing secure remote connections
in a converged network |
2. Connect Teleworkers
• Topologies for Facilitating Remote Connections
• Cable Technology
• DSL Technology
• Configuring the CPE as the PPPoE and PPPoA
Client
• Verifying Broadband ADSL Configurations |
3. Implement Frame-Mode MPLS
• Introducing MPLS Networks
• Assigning MPLS Labels to Packets
• Implementing Frame-Mode MPLS
• MPLS VPN Technology |
4. IPsec VPNs
• IPsec Components and IPsec VPN Features
• Site-to-Site IPsec VPN Operations
• Configuring IPsec Site-to-Site VPN Using SDM
• Configuring GRE Tunnels over IPsec
• High Availability Options
• Configuring Cisco Easy VPN and Easy VPN Server
Using SDM
• Implementing the Cisco VPN Client |
5. Cisco Device Hardening
• Mitigating Network Attacks
• Disabling Unused Cisco Router Network Services
and Interfaces
• Securing Cisco Router Installations and
Administrative Access
• Mitigating Threats and Attacks with Access Lists
• Securing Management and Reporting Features
• Configuring AAA on Cisco Routers |
6. Cisco IOS Threat Defense Features
• Introducing the Cisco IOS Firewall
• Implementing Cisco IOS Firewalls
• Introducing Cisco IOS IPS
• Configuring Cisco IOS IPS |
| |
ONT- Optimizing Converged Cisco Networks
|
| Hands-On Labs: |
Lab 1: ONT Lab Setup and Initialization
Lab 2: Placing and Examining VoIP Calls
Lab 3: Case Study: Selecting a Converged Network Strategy
Lab 4: Introducing MQC and the SDM QoS Wizard
Lab 5: Configuring NBAR
Lab 6: Configuring FIFO and WFQ Queuing Mechanisms
Lab 7: Configuring LLQ Queuing Mechanism
Lab 8: Class-Based Header Compression
Lab 9: Configuring LFI
Lab 10: Configuring QoS Pre-Classify
Lab 11: Configuring QoS with Cisco AutoQoS
Lab 12: Using MQC to Tune QoS Mechanisms ConfiguredWith AutoQoS
Lab 13: Troubleshooting Converged Networks
Lab 14: Setting Up the Wireless LAN Controller
Lab 15: Basic Security Configuration Using WPA-PSK
Lab 16: Advanced Security Configuration Using LEAP
Lab 17: Configuring WCS for WLANs |
