CCNP Routing and Switching
CCNP Routing and Switching
Troubleshooting and Maintaining Cisco IP Networks 2.0
Overview/Description
Troubleshooting and Maintaining Cisco IP Networks (TSHOOT) v2.0 is an instructor-led training course. TSHOOT 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 and perform regular maintenance on complex enterprise routed and switched networks and use technology-based practices and a systematic ITIL-compliant approach to perform network troubleshooting.
Prerequisites
This course is to be taken following attendance in both ROUTE and SWITCH. Students who do not meet this prerequisite will find this material unnecessarily challenging. CCNA-level knowledge is expected of those who attend the TSHOOT course.
Certification
This course offers the official training for the Implementing TSHOOT 2.0 certification exam which is a component exam for the CCNP certification. Passing this exam will also refresh CCNA certification, which expires after three years.
Exams
300-135 TSHOOT 2.0
Outline
Troubleshooting and Maintaining Cisco IP Networks 2.0
Module 1: Tools and Methodologies of Troubleshooting
Lesson 1: Describing Troubleshooting Methodologies
Lesson 2: Using Troubleshooting Procedures
Lesson 3: Following Recommended Practices During Routine Network Maintenance
Lesson 4: Using Basic IOS Troubleshooting Tools
Lesson 5: Using Specialized Troubleshooting Tools
Module 2: Troubleshooting IPv4 and IPv4 Fundamentals
Lesson 1: Troubleshooting IPv4 and IPv6 Addressing
Lesson 2: Troubleshooting IPv4 and IPv6 Basic Routing
Module 3: Troubleshooting Dynamic Routing
Lesson 1: Troubleshooting OSPF
Lesson 2: Troubleshooting EIGRP
Lesson 3: Troubleshooting RIPv2 and RIPng
Lesson 4: Troubleshooting Redistribution
Lesson 5: Troubleshooting BGP
Module 4: Troubleshooting Switching
Lesson 1: Troubleshooting Layer 2 Switching
Lesson 2: Troubleshooting InterVLAN Routing
Lesson 3: Troubleshooting FHRP
Module 5: Troubleshooting Security and Device Operation
Lesson 1: Troubleshooting Security
Lesson 2: Troubleshooting Router Features
Included Labs
Trouble Ticket 1
Trouble Ticket 2
Trouble Ticket 3
Trouble Ticket 4
Trouble Ticket 5
Trouble Ticket 6
Trouble Ticket 7
Trouble Ticket 8
Trouble Ticket 9
Trouble Ticket 10
Trouble Ticket 11
Trouble Ticket 12
Trouble Ticket 13
Trouble Ticket 14
Trouble Ticket 15
Trouble Ticket 16
Trouble Ticket 17
Trouble Ticket 18
Trouble Ticket 19
Trouble Ticket 20
Trouble Ticket 21
Trouble Ticket 22
Implementing Cisco IP Switched Networks 2.0
Overview/Description
This is an advanced course on Cisco switching configuration. Upon completion of this course students will be able to configure and optimize a switched infrastructure using VLANS, STP, RSTP, MSTP, and HSRP. Additionally, students will be able to secure this switched infrastructure.
Live training will focus on content within Modules 2-7. Students are expected to complete Module 1 by using the recorded training format. This recorded-only training section can be reviewed within the Encore format’s thorough coverage or your Live Session Homework (Live Session + Live Session Homework or Encore required for completion). This allows the Live sessions to focus on the most challenging and critical material. Additionally, DHCP coverage, Module 2 Lessons 3 and 4, will be taught following the completion of Module 3 so that it more logically flows within the content.
Prerequisites
Students attending this course should have a solid foundation in routing fundamentals, Cisco IOS basics, and Cisco routing basics. Attending the ICND1 and ICND2 classes or having the CCNA certification will fulfill these expectations.
Certification
This course offers the official training for the Implementing Cisco IP Switched Networks 2.0 certification exam which is a component exam for the CCNP and CCDP certifications. Passing this exam will also refresh CCNA certification, which expires after three years.
Exams
300-115 SWITCH 2.0
Outline
Implementing Cisco IP Switched Networks 2.0
Module 1: Basic Concepts and Network Design
Lesson 1: Analyzing Campus Network Structure
Lesson 2: Comparing Layer 2 and Multilayer Switches
Lesson 3: Using Cisco SDM Templates
Lesson 4: Implementing LLDP
Lesson 5: Implementing PoE
Module 2: Campus Network Architecture
Lesson 1: Implementing VLANs and Trunks
Lesson 2: Introducing VTP
Lesson 3: Implementing DHCP
Lesson 4: Implementing DHCP for IPv6
Lesson 5: Configuring Layer 2 Port Aggregation
Module 3: Spanning Tree Implementation
Lesson 1: Implementing RSTP
Lesson 2: Implementing STP Stability Mechanisms
Lesson 3: Implementing Multiple Spanning Tree Protocol
Module 4: Configuring Inter-VLAN Routing
Lesson 1: Implementing Inter-VLAN Routing Using a Router
Lesson 2: Configuring a Switch to Route
Module 5: Implementing High Availability Networks
Lesson 1: Configuring Network Time Protocol
Lesson 2: Implementing SNMP Version 3
Lesson 3: Implementing IP SLA
Lesson 4: Implementing Port Mirroring for Monitoring Support
Lesson 5: Verifying Switch Virtualization
Module 6: First Hop Redundancy Implementation
Lesson 1: Configuring Layer 3 Redundancy with HSRP
Lesson 2: Configuring Layer 3 Redundancy with VRRP
Lesson 3: Configuring Layer 3 Redundancy with GLBP
Lesson 4: Configuring First Hop Redundancy for IPv6
Module 7: Campus Network Security
Lesson 1: Implementing Port Security
Lesson 2: Implementing Storm Control
Lesson 3: Implementing Access to External Authentication
Lesson 4: Mitigating Spoofing Attacks
Lesson 5: Securing VLAN Trunks
Lesson 6: Configuring Private VLANs
Included Labs
Verifying Connectivity
Changing SDM Templates
Enabling LLDP
Creating VLANs
Assigning Switchports to VLANs
Configuring Trunks from ASW1 to DSW1 and DSW2
Configuring Trunks from ASW2 to DSW1 and DSW2
Configuring Trunks between DSW1 and DSW2
Modifying the Native VLAN on 802.1q trunks
Controlling VLANs on Trunks
Configuring Voice VLANs
Configuring VTP
Configuring Etherchannel Between DSW1 and DSW2
Modifying Etherchannel Load Balancing Algorithm
Configuring Rapid Spanning Tree Protocol
Manipulating STP Cost
Manipulating STP Port Priority
Enabling Portfast and BPDUGuard
Enabling BPDUFilter and RootGuard
Configuring Loop Guard and UDLD
Configuring MSTP
Manipulating MSTP Root Bridge and Port Cost
Configuring InterVLAN Routing
Creating SVIs
Enabling IPv4 Routing on a MLS
Creating Routed Ports on an MLS
Enabling Routing Protocols on an MLS
Configuring an MLS as a DHCPv4 Server
Configuring Manual DHCPv4 Bindings
Configuring an MLS as a DHCPv4 Relay Agent
Configuring an MLS as a Stateless DHCPv6 Server
Configuring NTP
Configuring SNMPv3
Configuring IPSLA
Configuring SPAN and RSPAN
Configuring HSRP
Configuring HSRP Interface Tracking
Configuring VRRP
Configuring GLBP
Configuring Port Security
Configuring Err-Disable Recovery
Configuring Storm Control
Configuring DHCP Snooping
Configuring DAI
Configuring IP Source Guard
Configuring AAA Authentication
Configuring 8021x Port Based Authentication
Implementing VACLs
Implementing Protected Ports
Implementing PVLANs
Skills
This course provides instruction in the following:
Implementation of VLANs
Configuration of STP, RSTP and MST
Optimizing STP
Configuration of routing between VLANs
Improving the availability of a switched campus with management protocols
Configuration of redundancy protocols such as HSRP, VRRP and GLBP
Securing a switched network
Implementing Cisco IP Routing 2.0
Overview/Description
This is an advanced course on Cisco routing configuration. Upon completion of this course students will be able to configure and optimize a routing domain using OSPF, EIGRP, BGP, PBR, IP SLA and configure redistribution when needed. This course covers routing for both IPv4 and IPv6.
Live training will focus on content within Modules 2-6. Students are expected to complete modules 1 and 7, and Module 6 lessons 1 through 3 by using the recorded training format. These recorded-only training sections can be reviewed within the Encore format’s thorough coverage or your Live Session Homework (Live Session + Live Session Homework or Encore required for completion). This allows the Live sessions to focus on the most challenging and critical material.
Prerequisites
Students attending this course should have a solid foundation in routing fundamentals, Cisco IOS basics, and Cisco routing basics. Attending the ICND1 and ICND2 classes or having the CCNA certification will fulfill these expectations.
Certification
This course offers the official training for the 2.0 Implementing Cisco IP Routing certification exam, which is a component exam for the CCNP routing and switching certification. Passing this exam will also refresh the CCNA certification, which expires after three years.
Exams
300-101 ROUTE 2.0
Outline
Implementing Cisco IP Routing 2.0
Module 1: Basic Network and Routing Concepts
Lesson 1: Differentiating Routing Protocols
Lesson 2: Understanding Network Technologies
Lesson 3: Connecting Remote Locations with the Headquarters
Lesson 4: Implementing RIPng
Module 2: EIGRP Implementation
Lesson 1: Establishing EIGRP Neighbor Relationships
Lesson 2: Building the EIGRP Topology Table
Lesson 3: Optimizing EIGRP Behavior
Lesson 4: Configuring EIGRP for IPv6
Lesson 5: Discovering Named EIGRP Configuration
Module 3: OSPF Implementation
Lesson 1: Establishing OSPF Neighbor Relationship
Lesson 2: Building the Link State Database
Lesson 3: Optimizing OSPF Behavior
Lesson 4: Configuring OSPFv3
Module 4: Configuration of Redistribution
Lesson 1: Implementing Basic Routing Protocol Redistribution
Lesson 2: Manipulating Redistribution Using Route Filtering
Module 5: Path Control Implementation
Lesson 1: Implementing Path Control
Module 6: Enterprise Internet Connectivity
Lesson 1: Planning Enterprise Internet Connectivity
Lesson 2: Establishing Single-Homed IPv4 Internet Connectivity
Lesson 3: Establishing Single-Homed IPv6 Internet Connectivity
Lesson 4: Improving Resilience of Internet Connectivity
Lesson 5: Considering Advantages of Using BGP
Lesson 6: Implementing Basic BGP Operations
Lesson 7: Using BGP Attributes and Path Selection Process
Lesson 8: Controlling BGP Routing Updates
Lesson 9: Implementing BGP for IPv6 Internet Connectivity
Module 7: Routers and Routing Protocol Hardening
Lesson 1: Describing Routing Protocol Authentication Options
Lesson 2: Configuring EIGRP Authentication
Lesson 3: Configuring OSPF Authentication
Lesson 4: Configuring BGP Authentication
Included Labs
Documenting your Topology
Configuring EIGRP on R1 R2 R3
Configuring EIGRP on R4 R5 R6
Troubleshooting EIGRP Adj.
Troubleshooting EIGRP Adj. Part 2
Troubleshooting EIGRP Routes: Part 1
Troubleshooting EIGRP Routes: Part 2
Configuring EIGRP Passive interfaces
Configuring EIGRP Route Summarization
Configuring EIGRP Unicast Neighborships
Configuring EIGRP Authentication
Configuring a Static Default Route with EIGRP
Using ISPA as the Primary Path with EIGRP
Implementing the EIGRP Stub Feature
Troubleshooting EIGRP Stub Routers
Load Balancing with EIGRP
Using Leak Maps with EIGRP
Filtering EIGRP Routes with Distribute Lists
EIGRP Convergence Timers
Implementing Policy Based Routing Part 1
Implementing Policy Based Routing Part 2
Implement OSPFv2 Part 1
Implementing OSPFv2 Part2
Implementing OSPFv2 Part 3
Advertising a Default Route
Configuring OSPF Passive Interfaces
Setting the OSPF Reference Bandwidth
Configure OSPF Authentication
Redistributing Connected Networks Into OSPF
Suppressing Type 5 LSAs in Area 123
Suppressing Type 5 and 3 LSAs in Area 123
Suppressing type 5 LSAs in area 4567
Suppressing Type 5 and 3 LSAs in area 4567
Filtering OSPF v2 Routes with Distribute Lists
Filtering Type 3 LSAs with Filter Lists
Modifying the Cost of an OSPF Interface
Configuring OSPF Inter-Area Route Summarization
Configuring OSPF External Route Summarization
Modifying the Metric of an OSPF External Route
Modifying the OSPF Metric Type
The OSPF Path Selection Process
OSPF Virtual Links
Troubleshooting OSPF: Part 5
Troubleshooting OSPF: Part 1
Troubleshooting OSPF: Part 2
Troubleshooting OSPF: Part 3
Troubleshooting OSPF: Part 4
Troubleshooting OSPF: Part 6
Redistribution Part 1: EIGRP to OSPF on R5
Redistribution Part 2: EIGRP to OSPF on R6
Redistribution Part 3: EIGRP to OSPF on R6
Redistribution Part 4: OSPF To EIGRP on R5
Redistribution Part 5: OSPF to EIGRP on R6
Redistribution Issues Part 1
Redistribution Issues Part 2
Redistribution Issues Part 3
Configuring EBGP on R3 and R4 to ISPs
Configuring EBGP on R4, R5, and R6
Configuring IBGP Peerings in AS 64501
Configuring IBGP Peerings in AS 64500
Solving Next Hop IP Issues in AS 64501: Part 1
Solving Next Hop IP Issues in AS 64501: Part 2
Troubleshooting BGP Issues in AS 64500 Part 1
Troubleshooting BGP Issues in AS 64500 Part 2
Advertising Networks with BGP: Part1
Advertising Networks with BGP: Part2
Advertising Summary Networks with BGP: Part 1
Advertising Summary Networks with BGP: Part 2
Redistribution Networks into BGP
Manipulating BGP Path Selection: Weight
Manipulating BGP Path Selection: Local Preference
Manipulating BGP Path Selection: MED
Manipulating BGP Path Selection: AS Path
Configuring EIGRP for IPv6 on R1 and R2
Conifguring EIGRP for IPv6 Passive Interfaces
Configure EIGRP for Ipv6 on R3
Implementing the EIGRP for IPv6 Stub feature
Configuring OSPFv3 in Area 0
Configuring OSPFv3 in Area 567
Redistributing from OSPFv3 into EIGRP for IPv6
Redistributing from EIGRP for IPv6 into OSPFv3
OSPFv3 Stub Area
OSPFv3 Totally Stubby Area
Configuring the DMVPN Hub
Configuring the DMVPN Spokes
Using EIGRP over a DMVPN
Solving Reachability Issues over DMVPNs
Configuring Spoke to Spoke DMVPNs
Skills
This course provides instruction in the following:
Configuration of EIGRP routing in a large network for IPv4 and IPv6
Configuration of OSPF and OSPFv3 routing in a large network
Configuration of redistribution between multiple routing protocols
Configuration of policy based routing
Integration with an ISP using BGP
Securing a routing domain