Archive for April 8, 2011
Cisco Certified Architect
Cisco announced a brand new certificate that exceed the level of skills needed to achieve CCIE. The newly announced Cisco Certified Architect certification recognizes the architectural experience and competency of network designers who can support the increasingly complex networks of global organizations and effectively translate business strategies into evolutionary technical strategies.
The Cisco Certified Architect certification is scheduled to be made available January 2010.
Cisco Certified Architect Certification Process
The Cisco Certified Architect certification will be administered as a board exam.
Candidates will propose and defend an architecture solution to a set of business requirements, and the candidates will be asked to modify their proposals “on the fly,” based on additional requirements presented by the board.
Prerequisites include a CCDE certification, approximately 10 years of industry experience, and acceptance into the program via an application process.
Cisco Certified Architect Responsibilities
Responsibilities of the Cisco Certified Architect
Lead creation and evolution of enterprise architecture
Analyze technology and industry market trends
Establish governing principles for Enterprise networks
Selection of technology and products
Identification of organization resource needs
Lead the development of communication and education plan for enterprise network architecture
Cisco Certified Architect is the highest level of accreditation achievable within the Cisco Certification program. It is the pinnacle for individuals wishing to show their formal validation of Cisco technologies and infrastructure architecture.
CCIE (R&S) CBT TOC (Contact Hrs 109)
1 Month Prep
15 days (7.3 hrs daily)
15 days Revision (7.3 hrs daily)
Cisco 640-822: CCENT/CCNA ICND1
Interconnecting Cisco Networking Devices Part 1
Trainer: Jeremy Cioara | Videos: 31 | Time: 14 hrs
• Video 1: Welcome to Cisco CCENT!|35:26
• Video 2: Foundations: What is a Network?|35:32
• Video 3: Foundations: Living in the OSI World|43:30
• Video 4: Basic TCP/IP: Addressing Fundamentals|39:42
• Video 5: Basic TCP/IP: TCP and UDP Communication|23:20
• Video 6: Basic TCP/IP: Understanding Port Numbers|17:17
• Video 7: Basic TCP/IP: The Tale of Two Packets|20:47
• Video 8: LANs: Welcome to Ethernet|22:31
• Video 9: LANs: Understanding the Physical Connections|18:17
• Video 10: LANs: Understanding LAN Switches|19:46
• Video 11: LANs: Working with the Cisco Switch IOS|29:15
• Video 12: LANs: Initial Setup of a Cisco Switch|35:03
• Video 13: LANs: Configuring Switch Security, Part 1|37:08
• Video 14: LANs: Configuring Switch Security, Part 2|19:00
• Video 15: LANs: Optimizing and Troubleshooting Switches|31:44
• Video 16: Wireless: Understanding Wireless Networking|34:25
• Video 17: Wireless: Wireless Security and Implementation|29:27
• Video 18: Advanced TCP/IP: Working with Binary|25:51
• Video 19: Advanced TCP/IP: IP Subnetting, Part 1|55:06
• Video 20: Advanced TCP/IP: IP Subnetting, Part 2|22:29
• Video 21: Advanced TCP/IP: IP Subnetting, Part 3|18:51
• Video 22: Routing: Initial Router Configuration|31:07
• Video 23: Routing: SDM and DHCP Server Configuration, Part 1|32:06
• Video 24: Routing: SDM and DHCP Server Configuration, Part 2|20:02
• Video 25: Routing: Implementing Static Routing|37:32
• Video 26: Routing: Implementing Dynamic Routing with RIP|40:46
• Video 27: Routing: Internet Access with NAT and PAT|24:41
• Video 28: Routing: WAN Connectivity|27:38
• Video 29: Management and Security: Telnet, SSH, and CDP|28:48
• Video 30: Management and Security: File Management|20:11
• Video 31: Last Words for Test Takers|07:29
Cisco 640-816: CCNA ICND2
Interconnecting Cisco Networking Devices Part 2
Trainer: Jeremy Cioara | Videos: 32 | Time: 16 hrs
• Video 1: Review: Rebuilding the Small Office Network, Part 1|33:54
• Video 2: Review: Rebuilding the Small Office Network, Part 2|28:45
• Video 3: Review: Rebuilding the Small Office Network, Part 3|23:36
• Video 4: Switch VLANs: Understanding VLANs|16:09
• Video 5: Switch VLANs: Understanding Trunks and VTP|39:07
• Video 6: Switch VLANs: Configuring VLANs and VTP, Part 1|35:58
• Video 7: Switch VLANs: Configuring VLANs and VTP, Part 2|39:36
• Video 8: Switch STP: Understanding the Spanning-Tree Protocol|28:18
• Video 9: Switch STP: Configuring Basic STP|21:16
• Video 10: Switch STP: Enhancements to STP|29:54
• Video 11: General Switching: Troubleshooting and Security Best Practices|29:23
• Video 12: Subnetting: Understanding VLSM|18:42
• Video 13: Routing Protocols: Distance Vector vs. Link State|26:25
• Video 14: Routing Protocols: OSPF Concepts|30:36
• Video 15: Routing Protocols: OSPF Configuration and Troubleshooting|39:53
• Video 16: Routing Protocols: EIGRP Concepts and Configuration|32:28
• Video 17: Access-Lists: The Rules of the ACL|27:44
• Video 18: Access-Lists: Configuring ACLs|34:40
• Video 19: Access-Lists: Configuring ACLs, Part 2|48:42
• Video 20: NAT: Understanding the Three Styles of NAT|20:00
• Video 21: NAT: Command-line NAT Configuration|35:41
• Video 22: WAN Connections: Concepts of VPN Technology|33:20
• Video 23: WAN Connections: Implementing PPP Authentication|34:39
• Video 24: WAN Connections: Understanding Frame Relay|28:42
• Video 25: WAN Connections: Configuring Frame Relay|30:52
• Video 26: IPv6: Understanding Basic Concepts and Addressing|33:59
• Video 27: IPv6: Configuring, Routing, and Interoperating|23:36
• Video 28: Certification: Some Last Words for Test Takers|13:10
• Video 29: Advanced TCP/IP: Working with Binary|25:51
• Video 30: Advanced TCP/IP: IP Subnetting, Part 1|55:06
• Video 31: Advanced TCP/IP: IP Subnetting, Part 2|22:29
• Video 32: Advanced TCP/IP: IP Subnetting, Part 3|19:53
Cisco 642-812: CCNP BCMSN
Building Converged Cisco Multilayer Switched Networks
Trainer: Jeremy Cioara | Videos: 21 | Time: 9 hrs
• Video 1: The Switches Domain: Core Concepts and Design|26:32
• Video 2: VLANs: Configuration and Verification|13:16
• Video 3: VLANs: In-Depth Trunking|35:57
• Video 4: VLANs: VLAN Trunking Protocol|33:20
• Video 5: STP: Foundation Per-VLAN Spanning Tree Concepts, Part 1|23:47
• Video 6: STP: Foundation Per-VLAN Spanning Tree Concepts, Part 2|34:20
• Video 7: STP: Rapid Spanning Tree Concepts and Configuration|24:10
• Video 8: EtherChannel: Aggregating Redundant Links|24:02
• Video 9: L3 Switching: InterVLAN Routing Extraordinaire|28:31
• Video 10: L3 Switching: Understanding CEF Optimization|16:54
• Video 11: Redundancy in the Campus: HSRP, VRRP, and GLBP Part 1|43:37
• Video 12: Redundancy in the Campus: HSRP, VRRP, and GLBP Part 2|23:37
• Video 13: Wireless LAN: Foundation Concepts and Design Part 1|26:25
• Video 14: Wireless LAN: Foundation Concepts and Design Part 2|22:56
• Video 15: Wireless LAN: Frequencies and 802.11 Standards|34:40
• Video 16: Wireless LAN: Understanding the Hardware|30:21
• Video 17: Wireless LAN: Configuration and Verification|17:28
• Video 18: Campus VoIP: Overview, Considerations, and AutoQoS|44:47
• Video 19: Campus Security: Basic Port Security and 802.1x|32:34
• Video 20: Campus Security: VLAN and Spoofing Attacks|31:14
• Video 21: Campus Security: STP Attacks and Other Security Considerations|15:08
Cisco 642-901: CCNP BSCI
Building Scalable Cisco Internetworks
Trainer: Jeremy Cioara | Videos: 27 | Time: 15 hrs
• Video 1: Today’s Routed World|23:42
• Video 2: EIGRP: The Concepts|35:36
• Video 3: EIGRP: Implementation and Verification|32:50
• Video 4: EIGRP: Summarization, Authentication, and Other Advanced Options|41:54
• Video 5: EIGRP: Best Practices and Design Options|25:20
• Video 6: OSPF: The Concepts (Part 1)|42:35
• Video 7: OSPF: The Concepts (Part 2)|23:53
• Video 8: OSPF: Implementation and Verification|37:32
• Video 9: OSPF: Understanding Network Types|46:53
• Video 10: OSPF: Router LSAs and Summarization Options|32:17
• Video 11: OSPF: Special Area Types and Options |33:26
• Video 12: OSPF: Authentication and Other Miscellaneous Options|27:49
• Video 13: IS-IS: The Concepts (Part 1)|33:22
• Video 14: IS-IS: The Concepts (Part 2)|34:41
• Video 15: IS-IS: Basic Implementation and Verification|34:53
• Video 16: Advanced Routing: Route Redistribution|35:06
• Video 17: Advanced Routing: Manipulating Route Updates|47:45
• Video 18: BGP: Foundation Concepts|23:57
• Video 19: BGP: Implementation and Tuning (Part 1)|33:43
• Video 20: BGP: Implementation and Tuning (Part 2)|33:31
• Video 21: BGP: Implementation and Tuning (Part 3)|25:00
• Video 22: BGP: Tuning Attributes (Part 1)|29:37
• Video 23: BGP: Tuning Attributes (Part 2)|49:39
• Video 24: Multicast: Concepts and Configuration|45:43
• Video 25: IPv6: Understanding Basic Concepts and Addressing |42:17
• Video 26: IPv6:Configuring, Routing, and Interoperating|31:01
• Video 27: Advanced Routing: Implementing Router-Based DHCP Services|25:52
Cisco 642-825: CCNP ISCW
Implementing Secure Converged Wide Area Networks
Trainer: Jeremy Cioara | Videos: 23 | Time: 11 hrs
• Video 1: Series Intro|04:53
• Video 2: Model Madness: Network Design and Connectivity for the Modern World|29:47
• Video 3: Understanding New WAN Technologies: Cable Technology|24:42
• Video 4: Understanding New WAN Technologies: DSL Technology|21:54
• Video 5: Understanding New WAN Technologies: Configuring PPPoE DSL Connections|28:24
• Video 6: Multiprotocol Label Switching: The Concepts|41:38
• Video 7: Multiprotocol Label Switching: Frame Mode Configuration|16:32
• Video 8: Multiprotocol Label Switching: Understanding MPLS VPNs|28:20
• Video 9: IPSec VPNs: VPN Concepts, Part 1|23:12
• Video 10: IPSec VPNs: VPN Concepts, Part 2|36:17
• Video 11: IPSec VPNs: VPN Site-to-Site CLI Configuration|47:34
• Video 12: IPSec VPNs: VPN Site-to-Site SDM Configuration|23:57
• Video 13: IPSec VPNs: IPSec Encrypted GRE Tunnels|29:56
• Video 14: IPSec VPNs: Remote Access Connections with Cisco Easy VPN|39:42
• Video 15: Network Lockdown: Attacks and Defense|35:46
• Video 16: Network Lockdown: Cisco Auto-Secure and SDM Security Audit|26:39
• Video 17: Network Lockdown: Securing Management Access|20:42
• Video 18: Network Lockdown: Securing Management Access, Part 2|22:27
• Video 19: Network Lockdown: Using Access Lists|22:55
• Video 20: Network Lockdown: Securing Network Management|42:26
• Video 21: Network Lockdown: Implementing Cisco AAA|29:32
• Video 22: Defending the Network: Cisco IOS Firewall|29:19
• Video 23: Defending the Network: Cisco IOS IPS|34:07
Cisco 642-845: CCNP ONT
Optimizing Converged Cisco Networks
Trainer: Jeremy Cioara | Videos: 22 | Time: 10 hrs
• Video 1: VoIP Networks: Understanding the Foundations|31:33
• Video 2: VoIP Networks: How Your Voice Becomes a Packet|33:13
• Video 3: VoIP Networks: Allocating Enough Bandwidth|30:08
• Video 4: VoIP Networks: Implementation Considerations|23:45
• Video 5: VoIP Networks: Implementation Considerations, Part 2|28:50
• Video 6: Quality of Service: Fighting the Bandwidth Monsters|26:29
• Video 7: Quality of Service: Implementation Models and Methods|24:57
• Video 8: Quality of Service: Implementation Models and Methods, Part 2|22:35
• Video 9: Quality of Service: Classification and Marking: Layer 2|23:05
• Video 10: Quality of Service: Classification and Marking: Layer 3|35:14
• Video 11: Quality of Service: Using NBAR|33:51
• Video 12: Quality of Service: Queuing Fundamentals|31:03
• Video 13: Quality of Service: Queuing Configuration|37:55
• Video 14: Quality of Service: Congestion Avoidance|39:13
• Video 15: Quality of Service: Policing and Shaping|25:57
• Video 16: Quality of Service: Link Efficiency Mechanisms|25:33
• Video 17: Quality of Service: Through VPNs and Service Providers|20:45
• Video 18: Quality of Service: The Magic Wand of AutoQoS|38:37
• Video 19: Wireless Networks: Wireless in the Cisco World|29:11
• Video 20: Wireless Networks: Security and 802.1x|50:46
• Video 21: Wireless Networks: Cisco Wireless Configuration |33:22
• Video 22: Wireless Networks: Wireless QoS|13:15
Cisco CCIE Certification
Trainer: Jeremy Cioara | Videos: 36 | Time: 24 hrs
• Video 1: CCIE Series Intro: so you want to be a CCIE|53:25
• Video 2: Advanced LAN Configuration (Part 1): Cat 3550|38:47
• Video 3: Advanced LAN Configuration (Part 2): Cat 3550|44:35
• Video 4: Advanced LAN Configuration (Part 3): Cat 3550|27:55
• Video 5: Advanced WAN Configuration (Part 1): HDLC & PPP|45:42
• Video 6: Advanced WAN Configuration (Part 2): Frame Relay|42:58
• Video 7: Advanced WAN Configuration (Part 3): Frame Relay Traffic Shaping and ATM|37:27
• Video 8: Advanced WAN Configuration (Part 4): ISDN|43:58
• Video 9: Internal Routing Protocols (Part 1): Distance Vector Challenges and RIPv2|27:00
• Video 10: Internal Routing Protocols (Part 2): Advanced EIGRP Configuration|44:46
• Video 11: Internal Routing Protocols (Part 3): OSPF|38:19
• Video 12: Internal Routing Protocols (Part 4): Foundation OSPF Configuration|34:48
• Video 13: Internal Routing Protocols (Part 5): Advanced OSPF Configuration: NBMA Networks|44:18
• Video 14: Internal Routing Protocols (Part 6): Advanced OSPF Configuration: Practical Example|47:43
• Video 15: Internal Routing Protocols (Part 7): Understanding and Configuring the IS-IS Protocol|43:44
• Video 16: Advanced Router Technology (Part 1): Routing the Unroutable: Router Bridging Technology|35:36
• Video 17: Advanced Router Technology (Part 2): Data Link Switching Plus (DLSW+)|35:42
• Video 18: Advanced Router Technology (Part 3): Voice over IP (VoIP)|49:39
• Video 19: Advanced Router Technology (Part 4): Network Address Translation (NAT)|33:10
• Video 20: Advanced Router Technology (Part 5): HSRP and NTP|46:43
• Video 21: Advanced Router Technology (Part 6): Understanding IP Access-Lists|50:58
• Video 22: Advanced Router Technology (Part 7): Multicast Routing Concepts|25:02
• Video 23: Advanced Router Technology (Part 8): Configuring Multicast Routing|37:07
• Video 24: Quality of Service (Part 1): QoS Fundamentals and the MQC|41:25
• Video 25: Quality of Service (Part 2): Congestion Management and Avoidance|40:11
• Video 26: Quality of Service (Part 3): Policing|34:54
• Video 27: BGP (Part 1): BGP Theory|27:53
• Video 28: BGP (Part 2): Understanding BGP Attributes|30:44
• Video 29: BGP (Part 3): Foundation BGP Configuration|46:01
• Video 30: BGP (Part 4): BGP Route Reflectors|42:10
• Video 31: BGP (Part 5): BGP Route Aggregation and Filtering|38:30
• Video 32: BGP (Part 6): Configuring BGP Attributes to Influence Routing|47:07
• Video 33: BGP (Part 7): Configuring BGP Attributes to Influence Routing|52:02
• Video 34: BGP (Part 8): BGP Multihoming|37:23
• Video 35: Practice Lab|58:36
• Video 36: IPv6|52:33
Cisco CCIE Video Practice Lab
Trainer: Jeremy Cioara | Videos: 20 | Time: 10 hrs
• Video 1: CCIE Practice Labs Introduction|39:38
• Video 2: CCIE Lab Setup|27:56
• Video 3: Bridging and Switching: Frame Relay|25:10
• Video 4: Bridging and Switching: 3550|46:37
• Video 5: IGP Protocols: OSPF Part 1|40:20
• Video 6: IGP Protocols: OSPF Part 2|33:03
• Video 7: IGP Protocols: RIPv2 |32:42
• Video 8: IGP Protocols: EIGRP|37:14
• Video 9: EGP Protocols: BGP Part 1|51:28
• Video 10: EGP Protocols: BGP Part 2|24:44
• Video 11: EGP Protocols: BGP Part 3|35:38
• Video 12: ISDN: Connectivity and Dial Restrictions|37:42
• Video 13: Cisco IOS Features: DHCP|19:30
• Video 14: Cisco IOS Features: Redundant Routing|32:27
• Video 15: Cisco IOS Features: SNMP|29:02
• Video 16: Cisco IOS Features: NTP|31:34
• Video 17: Cisco IOS Features: Miscellaneous Tasks|21:50
• Video 18: Quality of Service|39:05
• Video 19: Multicast|21:13
• Video 20: Security|25:17
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CCIE Prep TOC (CCNA – CCNP – CCIE R£S)
CCNA: Cisco Certified Network Associate Study Guide: Exam 640-802, 6th Edition
Todd Lammle
1008 pages
Chapter 1: Internetworking.
Chapter 2: Introduction to TCP/IP.
Chapter 3: Subnetting, Variable Length Subnet Masks (VLSMs), and Troubleshooting TCP/IP.
Chapter 4: Cisco’s Internetworking Operating System (IOS) and Security Device Manager (SDM).
Chapter 5: Managing a Cisco Internetwork.
Chapter 6: IP Routing.
Chapter 7: Enhanced IGRP (EIGRP) and Open Shortest Path First (OSPF).
Chapter 8: Layer 2 Switching and Spanning Tree Protocol (STP).
Chapter 9: Virtual LANs (VLANs).
Chapter 10: Security.
Chapter 11: Network Address Translation (NAT).
Chapter 12: Cisco’s Wireless Technologies.
Chapter 13: Internet Protocol Version 6 (IPv6).
Chapter 14: Wide Area Networks
Todd Lammle’s CCNA IOS Commands Survival Guide
312 pages
Chapter 1: Basic IOS Commands.
Chapter 2: Managing a Cisco Internetwork.
Chapter 3: IP Routing.
Chapter 4: Enhanced IGRP (EIGRP) and Open Shortest Path First (OSPF).
Chapter 5: Layer-2 Switching and Spanning-Tree Protocol (STP).
Chapter 6: Virtual LANs (VLANs).
Chapter 7: Security.
Chapter 8: Network Address Translation (NAT).
Chapter 9: Cisco’s Wireless Technologies.
Chapter 10: Internet Protocol Version 6 (IPv6).
Chapter 11: Wide Area Networks (WANs).
Chapter 12: Cisco’s Security Device Manager (SDM).
Cisco Video Mentor LABs
Lab 1 Navigating a Router/Switch Command-Line Interface 1
Lab 2 Router Configuration and Managing Configuration Files 5
Lab 3 Switch Basics: Learning, Forwarding/Filtering, and Interface Settings 9
Lab 4 Configuring VLANs 15
Lab 5 Static and Connected Routes 19
Lab 6 RIP V1 Configuration 23
Lab 7 RIP V1 with Split Horizon, Route Poisoning, and Poison Reverse 31
Lab 8 Single-Area and Multiarea OSPF Configuration 37
Lab 9 EIGRP Configuration and Operation 45
Lab 10 NAT Overload (PAT) 51
Lab 11 PPP and CHAP Configuration 55
Lab 12 Access Lists 59
BCMSN Command Reference Guide
Curriculum Labs BCMSN (Lab Portfolio)
Quick Reference Sheets BCMSN
BSCI Command Reference Guide
Curriculum Labs BSCI (Lab Portfolio)
Quick Reference Sheets BSCI
BSCI Labs (Advance)
ISCW Command Reference Guide
Curriculum Labs ISCW (Lab Portfolio)
Quick Reference Sheets ONT
ONT Command Reference Guide
Curriculum Labs ONT (Lab Portfolio)
Quick Reference Sheets ONT
Cheat Sheets
CCIE Quick Reference Sheets
INE Advacned Technologies Bootcamp (ClassOnDemand CoD)(80 Hours Lectures)(Should be done before WorkBook Volume 1)
Overview
INE’s CCIE Routing & Switching Advanced Technologies Bootcamp is the first step in understanding CCIE level technologies and is a companion to the Advanced Technologies Lab Workbook. Each technology you need to know for the CCIE Routing & Switching lab will be described in detail using an instructor led hands on demonstration. The class consists of nearly 80 hours of in depth explanations and examples.
At your convenience, join our highly certified team of CCIE instructors for a comprehensive look at lab exam blueprint topics. The CCIE Routing & Switching Advanced Technologies Bootcamp is presented on-screen using a sequence of slides, lectures, explanations, diagrams, and live command-line viewing. This 80+ hour class is presented in an easy to follow format and allows you to choose from a variety of convenient study methods.
Bootcamp Outline
Week One of the bootcamp includes 40+ hours of hands-on lecture on core CCIE Routing & Switching topics, and is spent exposing the fundamental principles behind the technologies covered in the CCIE Routing & Switching Lab Exam. This week is designed to provide you with foundational technical understanding, not to supply candidates with tips and tricks to pass your Lab Exam.
Week Two of bootcamp includes another 40+ hours of hands-on lecture of advanced topics and scenarios. This second week of the advanced technologies bootcamp will take the student’s understanding to the next level required to obtain the CCIE certification. Candidates will delve deep into advanced implementations of the topics covered in week one, as well as into advanced interactions that occur when technologies are implemented in tandem. Understanding the topics covered in week two will ensure that students are ready to take the next step in their CCIE preparation, applying the technologies in full-scale 8-hour lab scenarios.
Week 1
• Layer 2 Technologies
• IP Routing
• Quality of Service
• IP Services
• Security
Week 2
• Layer 2 Technologies
• IP Routing
• Quality of Service
• IP Services
• Security
• MPLS VPN
New Security Features INE Exam CoD4 Labs
Overview
INE’s CCIE Routing & Switching Written Exam Bootcamp is designed for students who are ready to begin studying for their CCIE and have not yet taken the written exam from Cisco. This course will help to lay a solid foundation on the concepts covered in the Routing & Switching written exam, as well as teach students the knowledge they’ll need not only to pass this exam, but also to continue straight into their CCIE Lab Exam preparation.
These workshops will also benefit CCIE candidates who may just desire to solidify or re-affirm their knowledge from a theoretical standpoint on the various technologies covered by the CCIE Routing & Switching written exam.
Bootcamp Outline
Covered Topics:
• General Networking Theory
• Bridging and LAN Switching
• IP
• IP Routing
• Quality of Service (QoS)
• WAN
• IP Multicast
• Security
• MPLS
• IPv6
• Version 4 Topics
INE Advanced Troubleshooting Bootcamp (Should be Done After WorkBook Volume 1)
Overview
INE’s CCIE Routing & Switching Advanced Troubleshooting Bootcamp is a combination of lectures focused on structured troubleshooting approach, and advanced hands-on troubleshooting lab scenarios. The class is designed for students seeking to solidify their troubleshooting skills, master structured troubleshooting approach and spot their weak areas. The ultimate goal is fully preparing candidates for the Troubleshooting section of the new CCIE Routing & Switching Exam. This is the only product in the market, targeted exclusively at troubleshooting topics.
The lecture portion of class covers topics such as structured troubleshooting strategies and their application to isolating issues found at different layers of seven-level reference OSI model. In addition to this the lab strategy portion of class covers such topics as what to expect the day of your lab, how to prioritize tasks, how to manage your time and more.
Bootcamp Outline
The bootcamp consists of two sections – lecturing and hands-on practice lab. The customers purchasing the CoD edition will have full access to the mock labs and may complete the scenarios at their own pace. The lecturing portion of the bootcamp covers the following topics:
Covered Topics:
• Troubleshooting Process Overview
• LAN Troubleshooting
• WAN Troubleshooting
• IPv4 IGP Troubleshooting
• BGP Troubleshooting
• MPLS Troubleshooting
• Multicast Troubleshooting
INE WorkBook Volume 1 (14 Labs)
Overview
Volume I – Advanced Technology Labs – is the hands on practice companion to the Advanced Technologies Bootcamp, and is the first step in CCIE lab preparation. Each lab is designed to walk you through the technology, and provide in depth explanations of the necessary configurations.
INE’s CCIE Routing & Switching Lab Workbook Volume I consists of nearly 600 (six hundred!) hands-on individually focused advanced technology labs that present topics in an easy to follow, goal-oriented step-by-step approach. Every scenario features detailed breakdowns and thorough verifications to assist you in getting 100% understanding of the particular technology. By isolating each topic on its own you are able to see, firsthand, the various ways to configure each technology. By understanding these fundamental technologies, you will then be able to predict advanced and sometimes subtle interactions when configuring multiple technologies together.
Workbook Outline/Covered Topics:
• Bridging & Switching
• RIP
• BGP
• Quality of Service
• IP Services
• Frame-Relay
• EIGRP
• Multicast
• Security
• MPLS VPN
• IP Routing
• OSPF Network Types
• IPv6
• System Management
DoIT Scenario Labs (22 Scenarios)
INE WorkBook Volume 2 (20 Labs) (Full Scale Labs)
Overview
Volume II – Full Scale Practice Labs – provides 20 detailed, full-scale labs similar to the actual CCIE lab exam, which follow a structured design covering all necessary topic domains on the configuration portion of the CCIE lab exam. Throughout each lab, you will configure the necessary technologies to build a complete Routing & Switching CCIE Lab topology. The full scale labs contained are designed to simulate the actual CCIE Routing & Switching Lab Exam and at the same time illustrate the principles behind the technologies which it covers. Each full-scale lab is accompanied with a solutions guide.
INE’s CCIE Routing & Switching Lab Workbook Volume II is the most comprehensive self-paced resource available on the market today for the CCIE Routing & Switching Lab Exam. This workbook is a self-paced product that is an integral part of the INE CCIE Routing and Switching Training Program. This workbook is designed to be used as a supplement to other self-paced materials, such as Advanced Technology Labs workbook and instructor-led trainings, such as 6 and 12 Day Bootcamps in preparation for Cisco Systems’ CCIE Routing & Switching Lab Exam.
Workbook Outline
Like the actual CCIE Routing & Switching Lab Exam, each of the full scale lab scenarios contained were designed to be configured within a limited timeframe matching the actual lab format. Every lab is divided into sections reflecting the structure of the official CCIE Routing & Switching lab exam blueprint. Our updated Volume II labs have the following structure:
Lab Structure:
• Layer 2 Technologies
• IPv4
• IPv6
• MPLS VPN
• Multicast
• Security
• Network Services
• QoS
INE WorkBook Volunme 2 Dynamips (20 Labs)
Volume II Dynamips – has the same structure as regular Volume II workbook, but has been adapted to be used along with Dynamips IOS hardware emulator. You dont need to purchase any Cisco router to use this product, all you need is a PC, capable of running the emulated topology. Please pay attention to the fact that Dynamips emulator has some limitations and you may not be able to replicate the full set of Cisco IOS features required for the real exam. However, all attempts have been made to deliver a product as accurate as possible.
Workbook Outline
Like the actual CCIE Routing & Switching Lab Exam, each of the full scale lab scenarios contained were designed to be configured within a limited timeframe matching the actual lab format. Every lab is divided into sections reflecting the structure of the official CCIE Routing & Switching lab exam blueprint. To reflect the changes coming into the CCIE lab exam effective October 18th 2009, our updated Volume II labs have the following structure:
Lab Structure:
• Layer 2 Technologies
• IPv4
• IPv6
• MPLS VPN
• Multicast
• Security
• Network Services
• QoS
INE Video Companion Series for Volume 2 Labs
Overview
Learn the strategies and technologies needed to pass the Version 4.X CCIE R&S Practical Lab Exam using this exciting new interactive video series from INE. These videos use Labs 1 through 5 of the best-selling Volume 2 Full Scale Practice Labs to help you master the specific technologies tested as well as the strategies needed to pass both sections of the Version 4.X CCIE R&S Lab Exam.
In addition to the full lab walkthroughs, the Interactive Video Companion features hours of additional interactive bonus content. This additional content includes Speed Drills, Troubleshooting Drills, and DOC-CD Drills.
Purpose
The most popular workbook of all the self-paced INE volumes is Volume 2, the Full Scale Practice Labs. While many of our students are actually in their Tier 1 studies with INE, they simply cannot resist working through as many of these labs as they can, sometimes many times over. This fully interactive series is the self-paced, video companion that many students have requested.
Workbook Outline
Like the actual CCIE Routing & Switching Lab Exam, each of the full scale lab scenarios contained were designed to be configured within a limited timeframe matching the actual lab format. Every lab is divided into sections reflecting the structure of the official CCIE Routing & Switching lab exam blueprint. Our updated Volume II labs have the following structure:
Lab Structure:
• Layer 2 Technologies
• IPv4
• IPv6
• MPLS VPN
• Multicast
• Security
• Network Services
• QoS
DoIT Complete Labs (20 Labs)
INE WorkBook Volume 3 (10 four Hour Labs) (Core Labs)
Overview
Volume III – Advanced Foundation Labs – contains 10 four hour labs designed to refine your configuration skills on the core technologies used in the CCIE lab exam. Each lab will guide you through the critical steps necessary for building and veriyfing a working networking topology. In addition to skill refinement, the labs are designed to increase your speed and task management skills which are crucial when working in a timed full scale lab environment.
INE’s CCIE Routing & Switching Lab Workbook Volume III consists of 10, 4-hour lab scenarios, each of which are divided into various sections totaling approximately 50 points. The goal of this workbook is to make core Layer 2 and Layer 3 configurations second nature, increasing your speed of configuration and eliminating the need for you to reference Cisco’s documentation or the context sensitive help during the CCIE Lab Exam. To accomplish this each of the sections within a scenario are assigned both a point value and a target time for configuration and verification. This format allows you to easily assess your own readiness by timing your configuration.
Workbook Outline
The Lab Workbook Volume 3 consists of 10, 4-hour lab scenarios, each of which are divided into various sections totaling approximately 50 points. The goal of this workbook is to make core Layer 2 and Layer 3 configurations second nature, increasing your speed of configuration and eliminating the need for you to reference Cisco’s documentation or the context sensitive help during the CCIE Lab Exam. To accomplish this each of the sections within a scenario are assigned both a point value and a target time for configuration and verification. This format allows you to easily assess your own readiness by timing your configuration.
Covered Topics:
• Bridging and Switching
• Frame Relay
• IPv6
• HDLC/PPP
• Interior Gateway Routing (RIP, OSPF, EIGRP, and Route Redistibution)
• Exterior Gateway Routing (BGP)
INE WorkBook Volume 4 (Troubleshooting Labs) (10 Scenarios)
Overview
Volume IV – Advanced Troubleshooting – contains 10 scenarios designed exclusively to prepare you for the new Troubleshooting part of the CCIE Routing & Switching exam. Every lab contains 10 trouble tickets that you have to resolve in order to return the sample network to the baseline configuration. Every solution breaks down the troubleshooting process in detailed steps, allowing you to master the structured troubleshooting approach.
INE’s CCIE Routing & Switching Lab Workbook Volume IV consists of 10, 2-3 hour lab scenarios, each containing 10 trouble tickets with the total amount of point equal to 30 in every lab. You need to obtain at least 24 points to give yourself the PASS mark for the lab. The goal of this workbook is to make troubleshooting second nature, develop your time-management skills and teach you the structured approach for troubleshooting. Improving your troubleshooting skills will not only help you pass the CCIE Lab exam, but will also help you with real-life job scenarios, which often require timely and accurate troubleshooting.
Workbook Outline
Recent changes to the CCIE Routing & Switching exam include the addition of troubleshooting section. During this part of the updated exam, you will be given a separate topology and a set of “incident” scenarios requiring you to apply troubleshooting skills and fix the broken network. Passing the troubleshooting section required to successfully pass the entire Lab Exam. It requires not just the in-depth understanding of the networking technologies but also the ability to effectively manage your time and apply structured methodology for finding and resolving the networking issues.
IPExpert Workbook volume 1 Labs
IPExpert Walk-through video tutorial volume 1 labs
IPExpert Workbook volume 2 Labs
IPExpert Workbook volume 3 Labs
IPExpert Walk-through video tutorial volume 3 labs
IPExpert VoD Video on Demand Course
IPExpert Bootcamp
Mock Lab 1
Mock Lab 2
Mock Lab 3
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CCIE R£S Lab Blueprint v4
Lab Equipment
The lab exam tests any feature that can be configured on the equipment and the IOS versions indicated below. You may see more recent IOS versions installed in the lab, but you will not be tested on the new features of a release unless indicated below.
• 3725 series routers – IOS 12.4 mainline – Advanced Enterprise Services
• 3825 series routers – IOS 12.4 mainline – Advanced Enterprise Services
• Catalyst 3550 series switches running IOS version 12.2 – IP Services
• Catalyst 3560 Series switches running IOS version 12.2 – Advanced IP Services
Beginning October 18, 2009, v4.0 exams will feature:
• Cisco 1841 Integrated Service Router, running IOS 12.4(T) Advanced Enterprise Services
• Cisco 3825 Integrated Service Router, running IOS 12.4(T) Advanced Enterprise Services
• Cisco Catalyst 3560 switch, running IOS 12.2 Advanced IP Services
DocCD/UniversCD/Cisco Documentation
http://www.cisco.com/cisco/web/psa/default.html?mode=prod
I N D E X
01 – Ethernet Bridging and Switching
02 – Frame-Relay
03 – HDLC/PPP
04 – IP Routing
05 – RIP
06 – EIGRP
07 – OSPF
08 – Redistribution
09 – BGP
10 – MPLS
11 – IPv6
12 – Multicast
13 – QOS
14 – System Management
15 – IP Services
16 – Security
ETHERNET BRIDGING & SWITCHING
• Ethernet Technologies
Speed and duplex
Ethernet, Fast Ethernet, and Gigabit Ethernet
PPPoE (PPP over Ethernet)
• Switchports
Dynamic
o Desirable
o Auto
Access
Trunk
o Encapsulation
o Mode
Allowed List
Tunnel
o 802.1q Tunnel
• VTP
Domains
Modes
o Server
o Client
o Transparent
Authentication
Pruning
o Prune Eligible List
Extended VLANs
• Layer 3 Routing
Router-on-a-Stick
Native Routed Ports
SVIs
• EtherChannel
Dynamic
o PAgP
o LACP
Static
Layer 3 & Layer 2
Load Balancing
• Spanning-Tree Protocol
Root Election
Path Selection
o Port Cost
o Port Priority
Advanced Spanning-Tree Features
o Portfast
o Uplinkfast
o Backbonefast
o BPDU Guard
o BPDU Filter
o Loopguard
o UDLD
Disabling STP
• Multiple Spanning-Tree Protocol (MSTP)
Root Election
Path Selection
• Rapid Spanning-Tree Protocol (RSTP)
• Advanced Catalyst Features
Flex Links
Private VLANs
SPAN
RSPAN
Optimizing System Resources (SDM)
Link state Tracking
Macros
CAM Maintenance
o Static Entries
o Aging
o Logging
o MAC address notification traps
o Unicast MAC address filtering
• Bridging
Transparent
CRB
IRB
Fall-Back Bridging
o Aging Time
o Discarding Static or Dynamic MAC Address
o Adjusting STP Parameters
• 3560 Security
Port Security
o Violation modes
o MAC Addresses
o Aging Time
o Aging Type
o Errdisable Recovery/Detect
802.1x Authentication
Storm Control
DHCP Snooping
o Option-82 Data-Inspection
IP Source-Guard
DAI (Dynamic ARP Inspection)
VACLs
o IP Acl
o MAC Acls & Ethertypes
Port Protection
o Switchport Protect
o Switchport Block
.
FRAME-RELAY
• NBMA Overview
Times
Keepalives
• Interface Types
Physical
Multipoint Subinterface
Point-to-Point Subinterface
Back-to-Back
FRF.16.1 (Multilink Frame Relay)
• Address Resolution (iARP)
Static
o Self Mapping
Dynamic (iARP)
o Disabling Requests
o Disabling Per DLCI
• DCHP to new router
• Broadcast Replication
• LMI
Adjusting the timers
• Full Mesh
• Partial Mesh (Hub-and-Spoke)
• End-to-End Keepalives
• Bridging over Frame Relay
.
PPP
• PPP advantages over HDLC
• PPP Features
Auto neighbor IP
LCP & IPCP
• Authentication
PAP
CHAP
o CHAP Hostname
o CHAP Password
o Same hostname
Putting a “?” in Password
• Peer Neighbor Route
• Reliable Link (RFC 1663)
• Link Quality Monitoring
• Multilink PPP (MLP)
MLP Interleaving and Queuing
Multiclass MLP
MRRU Negotiation
• PPP over Frame Relay (PPPoFR)
• PPP Half-Bridging
.
IP ROUTING
• Routing Decisions
Longest Match
Distance
Inner Protocol
Metric
• Default Routing
• Switching Paths
Process switching
Fast Switching
Netflow switching
CEF switching
• Layer 2 Resolution
• OER (Cisco Optimized Edge Routing)
PFR (Performance Routing)
• ODR (On Demand Routing)
• Secondary Ip addresses
• Floating Static Routes
• Backup Interface
• GRE Tunneling (L3 VPN)
• PBR (Policy Routing)
Policy route local traffic through Loopback
• /31 Mask
• IP-Unnumbered
.
RIP
• RIP Operation
no validate-update source
• Metric & Timers
• RIP Vesion 1 & 2
• Updates Types
Broadcast
Multicast
Unicast
• Network Statement
• Passive Int
• Split-Horizon, RIP Triggered
• Summarization
Auto Summary
Int Summary
• Filtering
Distribute-List
Offset List
Distance
• Default Routing
• Authentication
MD5
Text
.
EIGRP
• EIGRP Operation
• Metric, Timers and K-values
• Variance & Load-sharing
• Convergence Timers
• Routing Updates
• Packet Types (Theory)
• DUAL Finite State Machine (Theory)
• Passive Interface
• Split-Horizon
• Default Network
• Authentication
MD5
Key Rotation
• Summarization
Auto-Summary
Interface
Default Route (summary command with 0.0.0.0)
Floating Summary
• Filtering
Distribute-List
Offset List
Distance
• Stub Routing
• Bandwidth Percent
.
OSPF
• OSPF Overview
• Hello Protocol
• Network Types
Broadcast
Non-Broadcast
Point-to-Multipoint
Point-to-Multipoint Non-Broadcast
Point-to-Point
Mismatch
• DR and BDR
• OSPF Finite State Machine
• Router Types
• LSA (Link State Advertisement)
• Stub Areas
Stub
Stub No-Summary
NSSA No-Summary
NSSA No-Redistrib
NSSA No-Advertise
GRE over Stub
• Filtering
Distribute-List
LSA 3 Filter
LSA Overload Protection
LSA Throttling
Forwarding Address Suppression in Translated Type-5 LSAs
• Summarization
Inter-area
External
• Stub Router Advertisement
• Passive-Interface
• Originating routes
• Path Selection
Auto-Cost
Cost
Bandwidth
Neighbor Cost
Incremental SPF
• Authentication
Area
Interface
MD5
Clear Text
Null
Virtual-Link
• Default Routing
Always
Conditional
• OSPF Demand Circuit
.
REDISTRIBUTION
• Redistribution Overview
Connected interfaces
Single Router
Mutual Routers
• Connected / Static
• RIP
Metric
• EIGRP
Metric
External EIGRP routes
• OSPF
Route-Types
Match command
• BGP
Bgp Redistribute internal
.
BGP
• The BGP Process
• Establishing Peerings
TCP Transport
Update Source
o BGP States
o BGP Open Message
• Authentication
• EBGP sessions
Multihop
BGP Backdoor
Distance
Maximum-Paths
Dmzlink-bw
• Next-Hop Processing
Next-Hop Self
Route-Map
• iBGP sessions
Route Reflection
Confederation
• iBGP Synchronization
Redistribution into IGP
BGP over GRE
• Bestpath Selection Process
Weight
Local Preference
AS-Path Prepending
MED
• Communities
No-Export
No-Advertise
Local-AS
Numbered
New Format
Community-list
• Default Originate
• Originating Prefixes
Network Statement
Redistribution
Aggregation
o Summary-Only
o Suppress-Map
o Neighbor Unsuppress-Map
• Filtering
Filtering Specifics
Filtering Aggregate
• Conditional Advertisement
• Conditional Route Injection
• Clearing BGP Sessions
• ORF (Outbound Route Filtering)
• Local AS
• Remove Private AS
• Route-maps
• Dampening
• Peer Groups
• Peering Templates
• Regular Expressions
• Fast External Fallover
• Fast Peering session deactivation
• Support for Next-Hop Address Tracking
• Max Prefix
• BGP Policy Accounting
.
MPLS (Multi-Protocol Label Switching)
• MPLS Overview
• Router Types
CE (Customer Edge)
PE (Provider Edge)
P (Provider)
• LDP (Label Distribution Protocol)
• MPBGP
Address Families
Originating Prefixes
o Network Statement
o Redistribution
• Layer 3 VPNs
RD (Route-Target)
RT (Route Disinguisher)
VRF (virtual routing and forwarding)
Import and Export Maps
• VRF-Lite (Multi-VRF Customer Edge)
.
IPv6
• Addressing
Global Unicast
Link Local
Site Local
Unicast Local
EUI-64
• DHCP for IPv6
• IPv6 on 3560
• IPv6 over Ethernet
ICMP ND
Static to Next-Hop
Static to Interface
• IPv6 over Frame Relay
Layer 3 Resolution
Static to Next-Hop
Static to Interface
• IPv6 Routing Overview
• RIPng
Enabling
Default Routing
Summarization
Offset List
Distribute-List
Redistribution
• EIGRP v6
Enabling
Default Routing
Summarization
Distribute-List
Redistribution
• OSPFv3
Enabling
Network Types
OSPFv3 over NBMA
Summarization
o Internal
o External
Authentication
o Per interface
o Per area
Default Routing
Redistribution
• MPBGP
Address Families
Originating Prefixes
o Network Statement
o Aggregation
• Tunneling
IPv6IP
GRE
Automatic 6to4
ISATAP
• IPv6 Multicast
• IPv6 on 3560
• Access-List Filtering
• Static IPv6 DNS Entries
.
MULTICAST
• Multicast Operation
• Addressing
Reserved Addresses
Well-Known addresses
multicast MAC’s
SSM addresses
• IGMP
Join
Static
Access-Group
3560 Profile
IGMP Snooping
Helper
Timers
Max Groups
• PIM
Modes
o Sparse
o Dense
Sparse-Dense
Shortest Path switchover (SPT/RPT)
o IP PIM SPT-Threshold
• Reverse Path Forwarding
Static M-route
• RP Assignments
Static
o Override
Auto-RP
o Sparse-Dense
o Auto-RP Listener
o Default Static RP
BSR
o Specific Groups
o Priority
o BSR Border
Anycast RP with MSDP
• Bi-directional PIM
• NBMA Mode
• Multicast over GRE
• Multicast BGP
• Stub Multicast IP Routing
• Filtering
Static RP
o Filtering Specific Groups
Auto-RP filtering
o RP group filtering
o MA filtering RP’s
BSR
o Specific Groups
PIM-Neighbor filtering
Client filtering
Multicast Bopundary
Multicast Route-Limit
• Scoping
TTL Scoping
Administrative Scoping
• Additional Multicast features
Multicast Rate Limiting
Multicast Helper
SDR Listener support
Load splitting multicast traffic
Multicast Heartbeat
• SSM (Source specific multicast)
• MSDP (Multicast Source Distribution Protocol)
Interdomain Multicast Routing
• PGM (Pragmatic General multicast)
• MRM (Multicast Routing Monitor)
• MVR (Multicast VLAN Registration) on the 3550
• IGMP Profile filtering on 3550/3550
• DVMRP
.
QOS
• Qos Overview
• MQC
• Diffserv & Intserv Models
• Classification & Marking
Access-Lists
IP Precedence
DSCP
NBAR
Packet Length
FR-DE
Interface
NOT statement
• Congestion Management
Custom Queue (CQ)
Priority Queue (PQ)
Weighted Fair Queue (WFQ)
MQC Bandwidth (CBWFQ)
MQC Priority (LLQ)
• Congestion Avoidance
Legacy WRED
MQC WRED
IP Precedence
DSCP
• Shaping
Legacy GTS
Legacy FRTS
MQC Shape
MQC FRTS
Adaptive
• Policing
Legacy CAR
MQC Police
COPP (Control Plane Policing)
• Unconditional Packet Discard
• RSVP
• Nested MQC Policies
• Switching Voice VLANs
• Cisco AutoQoS
• 3550 QoS
Classification
o Per-Port Per-VLAN
o Mutation Maps
Congestion Management
o WRR
o Expedite Queue
Policing and Shaping
• 3560 QoS
Classification
o Per-Vlan Classification
Congestion Management
o Shaped Round Robin (SRR)
o Weighted Tail Drop (WTD)
Priority Queue
Policing and Shaping
o Aggregate policer
• Compression
TCP Header
Predictor
RTP Header-compression
Frame-Relay RTP compression
• Link Efficiency mechanisms
FRF.12
.
SYSTEM MANAGEMENT
• SNMP
Polling
Trapping
Communities
Controlling Access
• RMON
Delta
Absolute
• Logging
Syslog
Timestamps
3560 Flash Logging
Config Change Notification and Logging (Archive)
• Remote-access via Telnet
Establishing Terminal Session Limits
Displaying Line Connection Information
Chunk-size
Assign IP address to service provided on a TCP port
Busy-message
Vacant-message
Telnet message on successful connection
Refuse-message
IP telnet quiet
Saving Local Settings Between Sessions
Defining Escape character and other key sequences
Setting terminal screen length and width
Enable session locking
Login Enhancements
o block-for
o quite-mode
o delay
Hiding Telnet Addresses
• NTP
Master
Server
Peer
Authentication
Timezones
• Banners & Menus
Configuring Banners using tokens
• HTTP Server
• TFTP Server
• CDP
• Crash Dump
• Warm Reboot
• IOS Parser
• EEM (Embedded Resource Manager)
• System Resources
Memory
CPU
• Various other
Autoinstall
Aliases
Service Nagle
Interface Commands
o Hold-Queue
o Load-interval
.
IP SERVICES
• Scheduler allocate
• TCP
Performance Parameters
o TCP Selective Acknowledgment
o TCP Time-stamp
o TCP Window Scaling
o TCP ECN
TCP Synwait-time
Window Scaling
Explicit Congestion Notification
Keepalive Packet Service
• MTU
IP MTU
TCP MSS
PMTU Discovery
• NAT
Inside Source
Outside Source
Overload
Static Nat
o Extendable
o Port Redirection
NAT Timeouts
TCP Load Balancing
On a Stick
Stateful Nat
• Broadcast Services
IP Helper
Changing Broadcast address
• DHCP
Server
o Exclusions
o Domain
o Gateway
o Multiple Gateways
o Lease Time
Client
IPCP Client
IP Helper, DHCP Relay and Option 82
o Disabling on router
o Disabling on switch
IP Source Guard
Multiple Default Gateway
• DNS
Static Entries
Record Types: MX, A PTR etc
Proxy
• IP Accounting
Output Packets
Access-List Violations
Precedence
• First Hop Redundancy
HSRP
VRRP
GLBP
Track
• IP SLA/RTR
• NetFlow
• RITE (Router IP Traffic-Export)
• EEM (Cisco IOS Embedded Event Manager)
• SCP (Switch-module Configuration Protocol)
• TCP/UDP Small Services
• Local Area Mobility
• Web Caching Content Protocol (WCCP)
Inbound/Outbound
Excluding Traffic from Redirection
Only allowing certain Content Engines
Setting a Password for a router and cache engine
Enabling on 3550
• NHRP
Configuring NHRP authentication
• IRDP
• Mobile IP
Local Area Mobility
• DRP Server Agent
• IP Event Dampening
.
SECURITY
• Standard Access-Lists
• Extended Access-Lists
Advanced Ext-ACL
o as a prefix-list
Scott Morris’s Binary Voodoo
Options
ACL Logging
• Rate-limit Access-lists
• Time Based Access-Lists
• Dynamic Access-Lists
• Reflexive Access-Lists
• CBAC
• Zone Based Firewall
• IPS (Intrusion Prevention System)
• Security Compliance RFC’s
RFC 1918
RFC 3330 (more for SP Track)
RFC 2827
• TCP Intercept
• IP Source Tracking
• IP Traffic Export
• Disabling Services
Source Routing
Proxy ARP
IP Options
CDP
IP Unreachable
• Local Authentication
• Local Authorization
• AAA (know basics)
Modes
Defaults
RADIUS/TACACS
Max-attempts
Quiet Period
Host mode
Guest VLAN
• URPF
I N D E X
01 – Ethernet Bridging and Switching
02 – Frame-Relay
03 – HDLC/PPP
04 – IP Routing
05 – RIP
06 – EIGRP
07 – OSPF
08 – Redistribution
09 – BGP
10 – MPLS
11 – IPv6
12 – Multicast
13 – QOS
14 – System Management
15 – IP Services
16 – Security
ETHERNET BRIDGING & SWITCHING
• Ethernet Technologies
Speed and duplex
Ethernet, Fast Ethernet, and Gigabit Ethernet
PPPoE (PPP over Ethernet)
• Switchports
Dynamic
o Desirable
o Auto
Access
Trunk
o Encapsulation
o Mode
Allowed List
Tunnel
o 802.1q Tunnel
• VTP
Domains
Modes
o Server
o Client
o Transparent
Authentication
Pruning
o Prune Eligible List
Extended VLANs
• Layer 3 Routing
Router-on-a-Stick
Native Routed Ports
SVIs
• EtherChannel
Dynamic
o PAgP
o LACP
Static
Layer 3 & Layer 2
Load Balancing
• Spanning-Tree Protocol
Root Election
Path Selection
o Port Cost
o Port Priority
Advanced Spanning-Tree Features
o Portfast
o Uplinkfast
o Backbonefast
o BPDU Guard
o BPDU Filter
o Loopguard
o UDLD
Disabling STP
• Multiple Spanning-Tree Protocol (MSTP)
Root Election
Path Selection
• Rapid Spanning-Tree Protocol (RSTP)
• Advanced Catalyst Features
Flex Links
Private VLANs
SPAN
RSPAN
Optimizing System Resources (SDM)
Link state Tracking
Macros
CAM Maintenance
o Static Entries
o Aging
o Logging
o MAC address notification traps
o Unicast MAC address filtering
• Bridging
Transparent
CRB
IRB
Fall-Back Bridging
o Aging Time
o Discarding Static or Dynamic MAC Address
o Adjusting STP Parameters
• 3560 Security
Port Security
o Violation modes
o MAC Addresses
o Aging Time
o Aging Type
o Errdisable Recovery/Detect
802.1x Authentication
Storm Control
DHCP Snooping
o Option-82 Data-Inspection
IP Source-Guard
DAI (Dynamic ARP Inspection)
VACLs
o IP Acl
o MAC Acls & Ethertypes
Port Protection
o Switchport Protect
o Switchport Block
.
FRAME-RELAY
• NBMA Overview
Times
Keepalives
• Interface Types
Physical
Multipoint Subinterface
Point-to-Point Subinterface
Back-to-Back
FRF.16.1 (Multilink Frame Relay)
• Address Resolution (iARP)
Static
o Self Mapping
Dynamic (iARP)
o Disabling Requests
o Disabling Per DLCI
• DCHP to new router
• Broadcast Replication
• LMI
Adjusting the timers
• Full Mesh
• Partial Mesh (Hub-and-Spoke)
• End-to-End Keepalives
• Bridging over Frame Relay
.
PPP
• PPP advantages over HDLC
• PPP Features
Auto neighbor IP
LCP & IPCP
• Authentication
PAP
CHAP
o CHAP Hostname
o CHAP Password
o Same hostname
Putting a “?” in Password
• Peer Neighbor Route
• Reliable Link (RFC 1663)
• Link Quality Monitoring
• Multilink PPP (MLP)
MLP Interleaving and Queuing
Multiclass MLP
MRRU Negotiation
• PPP over Frame Relay (PPPoFR)
• PPP Half-Bridging
.
IP ROUTING
• Routing Decisions
Longest Match
Distance
Inner Protocol
Metric
• Default Routing
• Switching Paths
Process switching
Fast Switching
Netflow switching
CEF switching
• Layer 2 Resolution
• OER (Cisco Optimized Edge Routing)
PFR (Performance Routing)
• ODR (On Demand Routing)
• Secondary Ip addresses
• Floating Static Routes
• Backup Interface
• GRE Tunneling (L3 VPN)
• PBR (Policy Routing)
Policy route local traffic through Loopback
• /31 Mask
• IP-Unnumbered
.
RIP
• RIP Operation
no validate-update source
• Metric & Timers
• RIP Vesion 1 & 2
• Updates Types
Broadcast
Multicast
Unicast
• Network Statement
• Passive Int
• Split-Horizon, RIP Triggered
• Summarization
Auto Summary
Int Summary
• Filtering
Distribute-List
Offset List
Distance
• Default Routing
• Authentication
MD5
Text
.
EIGRP
• EIGRP Operation
• Metric, Timers and K-values
• Variance & Load-sharing
• Convergence Timers
• Routing Updates
• Packet Types (Theory)
• DUAL Finite State Machine (Theory)
• Passive Interface
• Split-Horizon
• Default Network
• Authentication
MD5
Key Rotation
• Summarization
Auto-Summary
Interface
Default Route (summary command with 0.0.0.0)
Floating Summary
• Filtering
Distribute-List
Offset List
Distance
• Stub Routing
• Bandwidth Percent
.
OSPF
• OSPF Overview
• Hello Protocol
• Network Types
Broadcast
Non-Broadcast
Point-to-Multipoint
Point-to-Multipoint Non-Broadcast
Point-to-Point
Mismatch
• DR and BDR
• OSPF Finite State Machine
• Router Types
• LSA (Link State Advertisement)
• Stub Areas
Stub
Stub No-Summary
NSSA No-Summary
NSSA No-Redistrib
NSSA No-Advertise
GRE over Stub
• Filtering
Distribute-List
LSA 3 Filter
LSA Overload Protection
LSA Throttling
Forwarding Address Suppression in Translated Type-5 LSAs
• Summarization
Inter-area
External
• Stub Router Advertisement
• Passive-Interface
• Originating routes
• Path Selection
Auto-Cost
Cost
Bandwidth
Neighbor Cost
Incremental SPF
• Authentication
Area
Interface
MD5
Clear Text
Null
Virtual-Link
• Default Routing
Always
Conditional
• OSPF Demand Circuit
.
REDISTRIBUTION
• Redistribution Overview
Connected interfaces
Single Router
Mutual Routers
• Connected / Static
• RIP
Metric
• EIGRP
Metric
External EIGRP routes
• OSPF
Route-Types
Match command
• BGP
Bgp Redistribute internal
.
BGP
• The BGP Process
• Establishing Peerings
TCP Transport
Update Source
o BGP States
o BGP Open Message
• Authentication
• EBGP sessions
Multihop
BGP Backdoor
Distance
Maximum-Paths
Dmzlink-bw
• Next-Hop Processing
Next-Hop Self
Route-Map
• iBGP sessions
Route Reflection
Confederation
• iBGP Synchronization
Redistribution into IGP
BGP over GRE
• Bestpath Selection Process
Weight
Local Preference
AS-Path Prepending
MED
• Communities
No-Export
No-Advertise
Local-AS
Numbered
New Format
Community-list
• Default Originate
• Originating Prefixes
Network Statement
Redistribution
Aggregation
o Summary-Only
o Suppress-Map
o Neighbor Unsuppress-Map
• Filtering
Filtering Specifics
Filtering Aggregate
• Conditional Advertisement
• Conditional Route Injection
• Clearing BGP Sessions
• ORF (Outbound Route Filtering)
• Local AS
• Remove Private AS
• Route-maps
• Dampening
• Peer Groups
• Peering Templates
• Regular Expressions
• Fast External Fallover
• Fast Peering session deactivation
• Support for Next-Hop Address Tracking
• Max Prefix
• BGP Policy Accounting
.
MPLS (Multi-Protocol Label Switching)
• MPLS Overview
• Router Types
CE (Customer Edge)
PE (Provider Edge)
P (Provider)
• LDP (Label Distribution Protocol)
• MPBGP
Address Families
Originating Prefixes
o Network Statement
o Redistribution
• Layer 3 VPNs
RD (Route-Target)
RT (Route Disinguisher)
VRF (virtual routing and forwarding)
Import and Export Maps
• VRF-Lite (Multi-VRF Customer Edge)
.
IPv6
• Addressing
Global Unicast
Link Local
Site Local
Unicast Local
EUI-64
• DHCP for IPv6
• IPv6 on 3560
• IPv6 over Ethernet
ICMP ND
Static to Next-Hop
Static to Interface
• IPv6 over Frame Relay
Layer 3 Resolution
Static to Next-Hop
Static to Interface
• IPv6 Routing Overview
• RIPng
Enabling
Default Routing
Summarization
Offset List
Distribute-List
Redistribution
• EIGRP v6
Enabling
Default Routing
Summarization
Distribute-List
Redistribution
• OSPFv3
Enabling
Network Types
OSPFv3 over NBMA
Summarization
o Internal
o External
Authentication
o Per interface
o Per area
Default Routing
Redistribution
• MPBGP
Address Families
Originating Prefixes
o Network Statement
o Aggregation
• Tunneling
IPv6IP
GRE
Automatic 6to4
ISATAP
• IPv6 Multicast
• IPv6 on 3560
• Access-List Filtering
• Static IPv6 DNS Entries
.
MULTICAST
• Multicast Operation
• Addressing
Reserved Addresses
Well-Known addresses
multicast MAC’s
SSM addresses
• IGMP
Join
Static
Access-Group
3560 Profile
IGMP Snooping
Helper
Timers
Max Groups
• PIM
Modes
o Sparse
o Dense
Sparse-Dense
Shortest Path switchover (SPT/RPT)
o IP PIM SPT-Threshold
• Reverse Path Forwarding
Static M-route
• RP Assignments
Static
o Override
Auto-RP
o Sparse-Dense
o Auto-RP Listener
o Default Static RP
BSR
o Specific Groups
o Priority
o BSR Border
Anycast RP with MSDP
• Bi-directional PIM
• NBMA Mode
• Multicast over GRE
• Multicast BGP
• Stub Multicast IP Routing
• Filtering
Static RP
o Filtering Specific Groups
Auto-RP filtering
o RP group filtering
o MA filtering RP’s
BSR
o Specific Groups
PIM-Neighbor filtering
Client filtering
Multicast Bopundary
Multicast Route-Limit
• Scoping
TTL Scoping
Administrative Scoping
• Additional Multicast features
Multicast Rate Limiting
Multicast Helper
SDR Listener support
Load splitting multicast traffic
Multicast Heartbeat
• SSM (Source specific multicast)
• MSDP (Multicast Source Distribution Protocol)
Interdomain Multicast Routing
• PGM (Pragmatic General multicast)
• MRM (Multicast Routing Monitor)
• MVR (Multicast VLAN Registration) on the 3550
• IGMP Profile filtering on 3550/3550
• DVMRP
.
QOS
• Qos Overview
• MQC
• Diffserv & Intserv Models
• Classification & Marking
Access-Lists
IP Precedence
DSCP
NBAR
Packet Length
FR-DE
Interface
NOT statement
• Congestion Management
Custom Queue (CQ)
Priority Queue (PQ)
Weighted Fair Queue (WFQ)
MQC Bandwidth (CBWFQ)
MQC Priority (LLQ)
• Congestion Avoidance
Legacy WRED
MQC WRED
IP Precedence
DSCP
• Shaping
Legacy GTS
Legacy FRTS
MQC Shape
MQC FRTS
Adaptive
• Policing
Legacy CAR
MQC Police
COPP (Control Plane Policing)
• Unconditional Packet Discard
• RSVP
• Nested MQC Policies
• Switching Voice VLANs
• Cisco AutoQoS
• 3550 QoS
Classification
o Per-Port Per-VLAN
o Mutation Maps
Congestion Management
o WRR
o Expedite Queue
Policing and Shaping
• 3560 QoS
Classification
o Per-Vlan Classification
Congestion Management
o Shaped Round Robin (SRR)
o Weighted Tail Drop (WTD)
Priority Queue
Policing and Shaping
o Aggregate policer
• Compression
TCP Header
Predictor
RTP Header-compression
Frame-Relay RTP compression
• Link Efficiency mechanisms
FRF.12
.
SYSTEM MANAGEMENT
• SNMP
Polling
Trapping
Communities
Controlling Access
• RMON
Delta
Absolute
• Logging
Syslog
Timestamps
3560 Flash Logging
Config Change Notification and Logging (Archive)
• Remote-access via Telnet
Establishing Terminal Session Limits
Displaying Line Connection Information
Chunk-size
Assign IP address to service provided on a TCP port
Busy-message
Vacant-message
Telnet message on successful connection
Refuse-message
IP telnet quiet
Saving Local Settings Between Sessions
Defining Escape character and other key sequences
Setting terminal screen length and width
Enable session locking
Login Enhancements
o block-for
o quite-mode
o delay
Hiding Telnet Addresses
• NTP
Master
Server
Peer
Authentication
Timezones
• Banners & Menus
Configuring Banners using tokens
• HTTP Server
• TFTP Server
• CDP
• Crash Dump
• Warm Reboot
• IOS Parser
• EEM (Embedded Resource Manager)
• System Resources
Memory
CPU
• Various other
Autoinstall
Aliases
Service Nagle
Interface Commands
o Hold-Queue
o Load-interval
.
IP SERVICES
• Scheduler allocate
• TCP
Performance Parameters
o TCP Selective Acknowledgment
o TCP Time-stamp
o TCP Window Scaling
o TCP ECN
TCP Synwait-time
Window Scaling
Explicit Congestion Notification
Keepalive Packet Service
• MTU
IP MTU
TCP MSS
PMTU Discovery
• NAT
Inside Source
Outside Source
Overload
Static Nat
o Extendable
o Port Redirection
NAT Timeouts
TCP Load Balancing
On a Stick
Stateful Nat
• Broadcast Services
IP Helper
Changing Broadcast address
• DHCP
Server
o Exclusions
o Domain
o Gateway
o Multiple Gateways
o Lease Time
Client
IPCP Client
IP Helper, DHCP Relay and Option 82
o Disabling on router
o Disabling on switch
IP Source Guard
Multiple Default Gateway
• DNS
Static Entries
Record Types: MX, A PTR etc
Proxy
• IP Accounting
Output Packets
Access-List Violations
Precedence
• First Hop Redundancy
HSRP
VRRP
GLBP
Track
• IP SLA/RTR
• NetFlow
• RITE (Router IP Traffic-Export)
• EEM (Cisco IOS Embedded Event Manager)
• SCP (Switch-module Configuration Protocol)
• TCP/UDP Small Services
• Local Area Mobility
• Web Caching Content Protocol (WCCP)
Inbound/Outbound
Excluding Traffic from Redirection
Only allowing certain Content Engines
Setting a Password for a router and cache engine
Enabling on 3550
• NHRP
Configuring NHRP authentication
• IRDP
• Mobile IP
Local Area Mobility
• DRP Server Agent
• IP Event Dampening
.
SECURITY
• Standard Access-Lists
• Extended Access-Lists
Advanced Ext-ACL
o as a prefix-list
Scott Morris’s Binary Voodoo
Options
ACL Logging
• Rate-limit Access-lists
• Time Based Access-Lists
• Dynamic Access-Lists
• Reflexive Access-Lists
• CBAC
• Zone Based Firewall
• IPS (Intrusion Prevention System)
• Security Compliance RFC’s
RFC 1918
RFC 3330 (more for SP Track)
RFC 2827
• TCP Intercept
• IP Source Tracking
• IP Traffic Export
• Disabling Services
Source Routing
Proxy ARP
IP Options
CDP
IP Unreachable
• Local Authentication
• Local Authorization
• AAA (know basics)
Modes
Defaults
RADIUS/TACACS
Max-attempts
Quiet Period
Host mode
Guest VLAN
• URPF
———–
———–
———–
———–
———–
CCIE Routing & Switching Lab Preparation (InterNetwork Expert)
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CCIE Routing and Switching Checklist
1.0
Implementing Layer 2 Technologies – Configuring and Troubleshooting Layer 2 Technologies
√
1.01 Frame Relay
1.01.1 Frame Relay Multipoint Links on a Physical Interface Using Inverse ARP
1.01.2 Frame Relay Multipoint Links on a Physical Interface Without Using Inverse ARP
1.01.3. Frame Relay Multipoint Link on a Subinterface Using Inverse ARP
1.01.4. Frame Relay Multipoint Link on a Subinterface Without Using Inverse ARP
1.01.5. Frame Relay Point-to-Point Subinterfaces
1.01.6. PVC with a Multipoint Interface on One Side and a Subinterface on the Other Side
1.01.7. Authentication on a Frame Relay Link Using PPP
1.2 Catalyst Configuration
1.2.01. Trunks Using an Industry-Standard Encapsulation
1.2.02. Trunks Using a Cisco Proprietary Encapsulation
1.2.03. Creating, Deleting, and Editing VLANs
1.2.04. VTP in Client/Server Mode
1.2.05. VTP in Transparent Mode
1.2.06. VTP Authentication
1.2.07. VTP Pruning
1.2.08. Controlling VLANs That Cross a Trunk
1.2.09. Optimizing STP by STP Timers
1.2.10. PortFast
1.2.11. Loop Guard
1.2.12. BPDU Guard
1.2.13. BPDU Filters
1.2.14. UplinkFast
1.2.15. BackboneFast
1.2.16. MSTP
1.2.17. Selecting the Root Bridge for VLANs in a PVST Environment
1.2.18. Selecting the Root Bridge for an MST Instance in an MST Environment
1.2.19. Setting the Port Priority to Designate the Forwarding Ports
1.2.20. EtherChannel Using an Industry-Standard Protocol
1.2.21. EtherChannel Using a Cisco Proprietary Protocol
1.2.22. Disabling Protocols on the EtherChannel
1.2.23. Load-Balancing Type on the EtherChannel
1.2.24. SNMP Management on the Switch
1.2.25. Telnet and SSH Management on the Switch
1.2.26. Controlling Inbound and Outbound Telnet on the Switch
1.2.27. Regular and Smart Macros
1.2.28. Switch Banners
1.2.29. UDLD
1.2.30. Switch Virtual Interfaces (SVIs) for IP Routing
1.2.31. Router on a Stick
1.2.32. SPAN
1.2.33. RSPAN
1.2.34. IP Routing on the Switch Using RIPv2, EIGRP, OSPF, and BGP
1.2.35. IP Phones to Connect to the Catalyst Switch
1.2.36. Dot1q Tunneling
1.3 Other Layer 2 Technologies
1.3.1. HDLC
1.3.2. PPP
1.3.3. PPP over Ethernet
2.0
Implementing IPv4 – Configuring and Troubleshooting IPv4
2.1. IPv4 Addressing
2.1.1. IPv4 Addressing
2.1.2. IPv4 Subnetting
2.1.3. IPv4 VLSM
2.2. OSPFv2
2.2.01. OSPF on a Broadcast Multicast Access Network (Ethernet)
2.2.02. OSPF over a Frame Relay Multipoint Network by Changing Network Types
2.2.03. OSPF over a Frame Relay Multipoint Network by Using the neighbor Command
2.2.04. OSPF over a Frame Relay Point-to-Point Network
2.2.05. Virtual Links
2.2.06. Stub Areas
2.2.07. Totally Stubby Areas
2.2.08. NSSA Areas
2.2.09. NSSA and Stub Areas
2.2.10. NSSA and Totally Stubby Areas
2.3. EIGRP
2.3.1. Basic EIGRP
2.3.2. Passive Interfaces
2.3.3. EIGRP Stub on Routers and Switches
2.3.4. EIGRP Update—Bandwidth Control
2.3.5. Changing the Administrative Distance of EIGRP
2.3.6. Unequal-Cost Load Balancing for EIGRP
2.4. Filtering, Redistribution, and Summarization
2.4.01. Route Filtering for OSPF Within the Area Using a Distribute List with an ACL and Prefix Lists
2.4.02. Route Filtering for OSPF Between Areas
2.4.03. Summarization of OSPF Routes Between Areas
2.4.04. Summarization of External Routers Within OSPF
2.4.05. Filtering with a Distribute List Using an ACL and Prefix Lists
2.4.06. Using Advanced ACLs and a Prefix List for Filtering Routes
2.4.07. Summarizing Routes with EIGRP
2.4.08. Route Summarization for RIP
2.4.09. Redistribution Between OSPF and EIGRP
2.4.10. Redistribution Between RIP and EIGRP
2.4.11. Redistribution Between RIP and OSPF
2.4.12. Redistribution of Directly Connected Routes
2.4.13. Redistribution of Static Routes
2.4.14. Redistribution with Filtering Using ACLs and Prefix Lists
2.4.15 Redistribution with Filtering Using Route Tagging
2.5. IBGP
2.5.1. IBGP Peering
2.5.2. Advertising Routes in BGP
2.5.3. Next-Hop Attribute
2.5.4. Route Reflectors
2.5.5. Redundancy by Neighbor Relationships Based on Loopbacks
2.6. EBGP
2.6.1. EBGP Peering
2.6.2. EBGP Peering Based on Loopbacks
2.7. BGP Advanced Features
2.7.01. Filtering Using ACLs
2.7.02. Filtering Using Prefix Lists
2.7.03. Filtering Using AS Path Filters
2.7.04. Redistributing Connected Routes into BGP
2.7.05. Redistributing Dynamic Routing Protocols into BGP
2.7.06. BGP Aggregation
2.7.07. BGP Aggregation with the Summary Only Parameter
2.7.08. BGP Aggregation with Suppress Maps
2.7.09. BGP Aggregation with Unsuppress Maps
2.7.10. BGP Best-Path Selection – Weight
2.7.11. BGP Best-Path Selection – Local Preference
2.7.12. BGP Best-Path Selection – MED
2.7.13. BGP Communities – No-Export
2.7.14. BGP Communities – No-Advertise
2.7.15. BGP Confederation
2.7.16. BGP Local AS
2.7.17. Working with Private AS Numbers
2.7.18. Route Dampening
2.7.19. Conditional Advertising
2.7.20. Peer Groups
2.8 Performance Routing (PfR) and Cisco Optimized Edge Routing (OER)
3.0
Implementing IPv6 – Configuring and Troubleshooting IPv6
3.1. IPv6
3.1.1. IPv6 Addresses
3.1.2 RIPng
3.1.2. OSPFv3
3.1.3. EIGRPv6
3.1.4. IPv6 Tunneling
3.1.5. IPv6 on a Frame Relay Network – Multipoint
3.1.6. IPv6 on a Frame Relay Network – Point-to-Point
3.1.7. Route Filtering with a Distribute List Using an ACL and Prefix Lists
3.1.8. Route Redistribution Between OSPFv3 and EIGRPv6
4.0
Implementing MPLS – Configuring and Troubleshooting MPLS
4.1. MPLS Unicast Routing
4.1.1. MPLS Unicast Routing Using LDP
4.1.2. Controlling Label Distribution
4.2. MPLS VPN
4.2.1. MPLS VPN Using Static Routing Between PE-CE
4.2.2. MPLS VPN Using EIGRP as the PE-CE Routing Protocol
4.2.3. MPLS VPN Using OSPF as the PE-CE Routing Protocol
4.2.4. MPLS VPN Using EBGP as the PE-CE Routing Protocol
4.2.5. Controlling Route Propagation Using the Route Target with Import and Export Maps
4.3. VRF-Lite
4.3.1. VRFs at the Customer Sites Using VRF-Lite
5.0
Implementing IP Multicast – Configuring and Troubleshooting IP Multicast
5.1. PIM and Bidirectional PIM
5.1.1. PIM Dense Mode
5.1.2. PIM on an NMBA Network
5.1.3. PIM Sparse Mode – Static Rendezvous Point
5.1.4. PIM Sparse Mode – Multiple Static Rendezvous Points
5.1.5. PIM Sparse Mode – Auto Rendezvous Point
5.1.6. PIM Sparse Mode with Multiple Rendezvous Points Using the Auto Rendezvous Point
5.1.7. Bidirectional PIM
5.2. MSDP
5.2.1. MSDP
5.2.2. MSDP to an Anycast Rendezvous Point
5.3. Multicast Tools
5.3.1. Multicast Rate Limiting
5.3.2. IGMP Filtering on the Switch
5.3.3. Use of the Switch to Block Multicast Traffic
5.3.4. Multicasting Through a GRE Tunnel
5.3.5. Multicast Helper Address
5.4. IPv6 Multicast
5.4.1. IPv6 Multicast Routing Using PIM
5.4.2. IPv6 Multicast Listener Discovery (MLD) Protocol
6.0
Implementing Network Security – Configuring and Troubleshooting Network Security
6.1. AAA and Security Server Protocols
6.1.1. Use of a Router to Authenticate Against a AAA Server Using TACACS+
6.1.2. Use of a Router to Authenticate Against a AAA Server Using RADIUS
6.1.3. Local Privilege Authorization
6.1.4. Accounting to a AAA Server Using TACACS+
6.1.5. Accounting to a AAA Server Using RADIUS
6.2. Access Lists
6.2.1. Standard Access Lists
6.2.2. Extended Access Lists
6.2.3. Time-Based Access Lists
6.2.4. Reflexive Access Lists
6.3. Routing Protocol Security
6.3.1. Routing Protocol Authentication for EIGRP
6.3.2. Routing Protocol Authentication for OSPF – Area-Wide
6.3.3. Routing Protocol Authentication for OSPF – Interface-Specific
6.3.4. Routing Protocol Authentication for OSPF Virtual Links
6.3.5. Routing Protocol Authentication for BGP
6.4. Catalyst Security
6.4.1. Storm Control
6.4.2. Switch Port Security
6.4.3. Dot1x Authentication
6.4.4. Dot1x Authentication for VLAN Assignment
6.4.5. VLAN Access Maps
6.4.6. DHCP Snooping
6.4.7. DAI
6.4.8. IP Source Guard
6.4.9. Private VLANs
6.5. Cisco IOS and Zone-Based Firewalls
6.5.1. Basic Cisco IOS Firewall
6.5.2. DoS Protection on a Cisco IOS Firewall
6.5.3. Basic Zone-Based Firewall
6.5.4. Zone-Based Firewall with Deep Packet Inspection
6.6. NAT
6.6.1. Dynamic NAT
6.6.2. PAT
6.6.3. Static NAT
6.6.4. Static PAT
6.6.5. Policy-Based NAT
6.7. Other Security Features
6.7.1. Configuring the TCP Intercept Feature
6.7.2. Configuring Blocking of Fragment Attacks
6.7.3. Configuring Switch Security Features
6.7.4. Configuring Antispoofing Using an ACL
6.7.5. Configuring Antispoofing Using uRPF
6.7.6. SSH on Routers and Switches
6.7.7. Cisco IOS IPS
6.7.8. Controlling Telnet and SSH Access to the Router and Switch
7.0
Implementing Network Services – Configuring and Troubleshooting Network Services
7.1. DHCP
7.1.1. Configuring DHCP on a Cisco IOS Router
7.1.2. Configuring DHCP on a Switch
7.1.3. Using a Router and a Switch to Act as a DHCP Relay Agent (Helper Address)
7.2. HSRP
7.2.1. HSRP Between Two Routers
7.2.2. Pre-empt for HSRP
7.2.3. Authentication for HSRP
7.2.4. VRRP
7.2.5. GLBP
7.3. IP Services
7.3.1. Use of the Router for WCCP
7.3.2. Use of the Router to Generate an Exception Dump Using TFTP
7.3.3. Use of the Router to Generate an Exception Dump Using FTP
7.3.4. Use of the Router to Generate an Exception Dump Using RCP
7.3.5. Broadcast Forwarding for Protocols
7.4. System Management
7.4.1. Telnet Management on the Router and Switch
7.4.2. SSH Management on the Router and Switch
7.4.3. Disabling Telnet and the SSH Client on the Switch
7.4.4. HTTP Management on the Router and Switch
7.4.5. Controlling HTTP Management on the Router and Switch
7.5. NTP
7.5.1. NTP Using the NTP Master and NTP Server Commands
7.5.2. NTP Without Using the NTP Server
7.5.3. NTP Using NTP Broadcast Commands
8.0
Implementing QoS – Configuring and Troubleshooting QoS
8.1. Classification
8.1.1. Marking Using DSCP
8.1.2. Marking Using IP Precedence
8.1.3. Marking Using CoS
8.2. Congestion Management and Congestion Avoidance
8.2.1. Priority Queuing
8.2.2. Custom Queuing
8.2.3. Weighted Fair Queuing
8.2.4. WRED
8.2.5. RSVP
8.3. Policing and Shaping
8.3.1. CAR Using Rate Limiting Under the Interface
8.3.2. Frame Relay Traffic Shaping Using Map Classes
8.3.3. Discard Eligible List
8.4. Link Efficiency Mechanisms
8.4.1. Compression
8.4.2. Link Fragmentation and Interleaving (LFI) for Frame Relay
8.5. Modular QoS CLI
8.5.1. Policing
8.5.2. Class-Based Weighted Fair Queuing (CB-WFQ)
8.5.3. Low Latency Queuing (LLQ)
8.5.4. Shaping Using MQC
8.5.5. Random Early Detection Using MQC
8.5.6. WRED Using MQC
8.5.7. Using NBAR for QoS
8.5.8. Discard Eligible Marking Using MQC
8.6. Catalyst QoS
8.6.1. SRR on the Catalyst Switch
9.0
Troubleshooting a Network – Troubleshooting Network-Wide Connectivity Issues
9.1. Troubleshooting Layer 2 Problems
9.1.1. Troubleshooting Catalyst Switch Network Issues
9.1.2. Troubleshooting Frame Relay Network Issues
9.2. Troubleshooting Layer 3 Problems
9.2.1. Troubleshooting IP Addressing Network Issues
9.2.2. Troubleshooting Routing Protocol Network Issues
9.2.3. Troubleshooting Routing Protocol Loop Issues
9.3. Troubleshooting Application Problems
9.3.1. Determining Which Aspects of the Network to Troubleshoot to Determine Network Functionality (Given a Set of Symptoms)
9.4. Troubleshooting Network Services
9.4.1. Troubleshooting Misconfigured NTP Setup
9.4.2. Troubleshooting Misconfigured DHCP Setup
9.4.3. Troubleshooting Misconfigured Telnet and SSH Setup
9.4.4. Troubleshooting Misconfigured SNMP Setup
9.5. Troubleshooting Security Services
9.5.1. Troubleshooting Misconfigured ACLs
9.5.2. Troubleshooting Misconfigured NAT
9.5.3. Troubleshooting Misconfigured AAA Services
10.0
Optimizing a Network – Configuring and Troubleshooting Optimization of a Network
10.1. Logging In
10.1.1. Logging into a Remote Syslog Server
10.1.2. Logging into the Internal Buffer
10.2. SNMP
10.2.1. Use of a Router to Communicate to an SNMP Management Station
10.2.2. Use of a Router to Generate SNMP Traps
10.3. RMON
10.3.1. Use of a Router to Generate SNMP Traps Using RMON
10.4. Accounting
10.4.1. IP Accounting
10.5. SLA
10.5.1. IP SLA
10.6. Implementing Network Services on the Routers
10.6.1. Use of a Router as an FTP Server
10.6.2. Use of a Router as a TFTP Server
10.6.3. Cisco IOS Embedded Event Manager
10.6.4. NetFlow
10.6.5. HTTP and HTTPS on a Router
10.6.6. Telnet on a Router
10.6.7. Implementing Secure Copy Protocol (SCP) on a Router
CCIE Routing and Switching Lab Exam Topics (Blueprint) v4.0
1.00 Implement Layer 2 Technologies √
1.10 Implement Spanning Tree Protocol (STP)
(a) 802.1d
(b) 802.1w
(c) 801.1s
(d) Loop guard
(e) Root guard
(f) Bridge protocol data unit (BPDU) guard
(g) Storm control
(h) Unicast flooding
(i) Port roles, failure propagation, and loop guard operation
1.20 Implement VLAN and VLAN Trunking Protocol (VTP)
1.30 Implement trunk and trunk protocols, EtherChannel, and load-balance
1.40 Implement Ethernet technologies
(a) Speed and duplex
(b) Ethernet, Fast Ethernet, and Gigabit Ethernet
(c) PPP over Ethernet (PPPoE)
1.50 Implement Switched Port Analyzer (SPAN), Remote Switched Port Analyzer (RSPAN), and flow control
1.60 Implement Frame Relay
(a) Local Management Interface (LMI)
(b) Traffic shaping
(c) Full mesh
(d) Hub and spoke
(e) Discard eligible (DE)
1.70 Implement High-Level Data Link Control (HDLC) and PPP
2.00 Implement IPv4
2.10 Implement IP version 4 (IPv4) addressing, subnetting, and variable-length subnet masking (VLSM)
2.20 Implement IPv4 tunneling and Generic Routing Encapsulation (GRE)
2.30 Implement IPv4 RIP version 2 (RIPv2)
2.40 Implement IPv4 Open Shortest Path First (OSPF)
(a) Standard OSPF areas
(b) Stub area
(c) Totally stubby area
(d) Not-so-stubby-area (NSSA)
(e) Totally NSSA
(f) Link-state advertisement (LSA) types
(g) Adjacency on a point-to-point and on a multi-access network
(h) OSPF graceful restart
2.50 Implement IPv4 Enhanced Interior Gateway Routing Protocol (EIGRP)
(a) Best path
(b) Loop-free paths
(c) EIGRP operations when alternate loop-free paths are available, and when they are not available
(d) EIGRP queries
(e) Manual summarization and autosummarization
(f) EIGRP stubs
2.60 Implement IPv4 Border Gateway Protocol (BGP)
(a) Next hop
(b) Peering
(c) Internal Border Gateway Protocol (IBGP) and External Border Gateway Protocol (EBGP)
2.70 Implement policy routing
2.80 Implement Performance Routing (PfR) and Cisco Optimized Edge Routing (OER)
2.90 Implement filtering, route redistribution, summarization, synchronization, attributes, and other advanced features
3.00 Implement IPv6
3.10 Implement IP version 6 (IPv6) addressing and different addressing types
3.20 Implement IPv6 neighbor discovery
3.30 Implement basic IPv6 functionality protocols
3.40 Implement tunneling techniques
3.50 Implement OSPF version 3 (OSPFv3)
3.60 Implement EIGRP version 6 (EIGRPv6)
3.70 Implement filtering and route redistribution
4.00 Implement MPLS Layer 3 VPNs
4.10 Implement Multiprotocol Label Switching (MPLS)
4.20 Implement Layer 3 virtual private networks (VPNs) on provider edge (PE), provider (P), and customer edge (CE) routers
4.30 Implement virtual routing and forwarding (VRF) and Multi-VRF Customer Edge (VRF-Lite)
5.00 Implement IP Multicast
5.10 Implement Protocol Independent Multicast (PIM) sparse mode
5.20 Implement Multicast Source Discovery Protocol (MSDP)
5.30 Implement interdomain multicast routing
5.40 Implement PIM Auto-Rendezvous Point (Auto-RP), unicast rendezvous point (RP), and bootstrap router (BSR)
5.50 Implement multicast tools, features, and source-specific multicast
5.60 Implement IPv6 multicast, PIM, and related multicast protocols, such as Multicast Listener Discovery (MLD)
6.00 Implement Network Security
6.01 Implement access lists
6.02 Implement Zone Based Firewall
6.03 Implement Unicast Reverse Path Forwarding (uRPF)
6.04 Implement IP Source Guard
6.05 Implement authentication, authorization, and accounting (AAA) (configuring the AAA server is not required, only the client-side (IOS) is configured)
6.06 Implement Control Plane Policing (CoPP)
6.07 Implement Cisco IOS Firewall
6.08 Implement Cisco IOS Intrusion Prevention System (IPS)
6.09 Implement Secure Shell (SSH)
6.10 Implement 802.1x
6.11 Implement NAT
6.12 Implement routing protocol authentication
6.13 Implement device access control
6.14 Implement security features
7.00 Implement Network Services
7.10 Implement Hot Standby Router Protocol (HSRP)
7.20 Implement Gateway Load Balancing Protocol (GLBP)
7.30 Implement Virtual Router Redundancy Protocol (VRRP)
7.40 Implement Network Time Protocol (NTP)
7.50 Implement DHCP
7.60 Implement Web Cache Communication Protocol (WCCP)
8.00 Implement Quality of Service (QoS)
8.10 Implement Modular QoS CLI (MQC)
(a) Network-Based Application Recognition (NBAR)
(b) Class-based weighted fair queuing (CBWFQ), modified deficit round robin (MDRR), and low latency queuing (LLQ)
(c) Classification
(d) Policing
(e) Shaping
(f) Marking
(g) Weighted random early detection (WRED) and random early detection (RED)
(h) Compression
8.20 Implement Layer 2 QoS: weighted round robin (WRR), shaped round robin (SRR), and policies
8.30 Implement link fragmentation and interleaving (LFI) for Frame Relay
8.40 Implement generic traffic shaping
8.50 Implement Resource Reservation Protocol (RSVP)
8.60 Implement Cisco AutoQoS
9.00 Troubleshoot a Network
9.10 Troubleshoot complex Layer 2 network issues
9.20 Troubleshoot complex Layer 3 network issues
9.30 Troubleshoot a network in response to application problems
9.40 Troubleshoot network services
9.50 Troubleshoot network security
10.00 Optimize the Network
10.01 Implement syslog and local logging
10.02 Implement IP Service Level Agreement SLA
10.03 Implement NetFlow
10.04 Implement SPAN, RSPAN, and router IP traffic export (RITE)
10.05 Implement Simple Network Management Protocol (SNMP)
10.06 Implement Cisco IOS Embedded Event Manager (EEM)
10.07 Implement Remote Monitoring (RMON)
10.08 Implement FTP
10.09 Implement TFTP
10.10 Implement TFTP server on router
10.11 Implement Secure Copy Protocol (SCP)
10.12 Implement HTTP and HTTPS
10.13 Implement Telnet
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CCIE Service Provider Lab Exam v3.0 Checklist
1. Implement, Optimize and Troubleshoot Core IP Technologies
1.1. Packet over SONET
1.1.1. Cisco HDLC encapsulation
1.1.2. PPP encapsulation
1.1.3. Frame Relay encapsulation
1.1.4. Maximum transmission unit (MTU)
1.1.5. Cyclic redundancy check (CRC)
1.1.6. Keepalive timer
1.1.7. Frame Relay DLCI on point to point sub-interface
1.1.8. SONET Controller
1.1.9. POS channel
1.2. GE/10GE in the Core
1.2.1. MAC accounting
1.2.2. Speed
1.2.3. Duplex mode
1.2.4. Carrier Delay
1.2.5. MTU
1.2.6. Flow control
1.2.7. 802.1Q VLAN sub-interface
1.3. IGP routing
1.3.1. IS-IS Multi topology
1.3.2. IS-IS Multi instance
1.3.2. IS-IS System Type
1.3.3. IS-IS Metric Type
1.3.4. IS-IS Area
1.3.5. IS-IS Designated Intermediate Systems
1.3.6. IS-IS Interface Circuit Type
1.3.7. IS-IS Interface Metric
1.3.8. IS-IS Retransmission Throttle Interval
1.3.9. IS-IS LSP Interval and Lifetime
1.3.10. IS-IS Point-to-point Adjacency over Broadcast Media
1.3.11. IS-IS route leaking
1.3.12. OSPF multi instance
1.3.13. OSPF Multi Areas
1.3.14. OSPF router ID
1.3.15. OSPF over different physical network
1.3.16. OSPF neighbor
1.3.17. OSPF interface cost
1.3.18. OPSF designated router
1.3.19. OSPFv3 support for IPv6
1.3.20. EIGRP multi instance
1.3.21. EIGRP Autonomous System Configuration
1.3.22. EIGRP Cost Metrics
1.3.23. EIGRP Equal and Unequal Cost Load Balancing
1.3.24. EIGRP support for IPv6
1.3.25. RIP v2
1.3.26. RIP support for IPv6
1.3.27. Redistribution between OSPF,IS-IS and EIGRP
1.3.28. Redistribution of Directly connected routes
1.3.29. Redistribution of Static routes
1.3.30. Route summary
1.3.31. IOS-XR routing policy language (RPL)
1.3.32. Routing policy using route-map
1.4. MPLS and LDP
1.4.1. IP CEF
1.4.2. LDP router ID
1.4.3. LDP interface
1.4.4. LDP neighbor auto discovery
1.4.5. MPLS MTU
1.4.6. MPLS LDP Static label
1.4.7. MPLS LDP—Local Label Allocation Filtering
1.4.8. MPLS LDP-IGP synchronization
1.4.9. MPLS LDP Inbound/outbound Label Binding Filtering
1.5. MPLS Traffic Engineering
1.5.1. IS-IS support for MPLS TE
1.5.2. OSPF support for MPLS TE
1.5.3. RSVP for MPLS TE
1.5.4. MPLS TE tunnel setup
1.5.5. MPLS TE Tunnel bandwidth
1.5.6. MPLS TE Automatic Bandwidth
1.5.7. MPLS TE Static route
1.5.8. MPLS TE Auto route
1.5.9. MPLS TE Policy route
1.5.10. MPLS TE Forwarding adjacency
1.5.11. MPLS TE Metric
1.5.12. MPLS TE LSP attributes
1.5.13. MPLS TE Class-based Tunnel selection
1.5.14. MPLS TE Policy-based Tunnel selection
1.5.15. MPLS Pseudowire Tunnel Selection
1.5.16. Point to multi point ( P2MP) MPLS TE
1.5.17. Inter-Domain MPLS TE
1.5.18. Inter-Area MPLS TE
1.6. BGP
1.6.1. IBGP IPv4/IPv6 Peering
1.6.2. EBGP IPv4/IPv6 Peering
1.6.3. EBGP IPv4/IPv6 multi hop peering
1.6.4. BGP IPv4/IPv6 routes advertising
1.6.5. EBGP IPv4/IPv6 peering using local-AS
1.6.6. EBGP IPv4/IPv6 peering using AS-override
1.6.7. BGP IPv4/IPv6 using private AS number
1.6.8. Dual AS configuration for Network AS migration
1.6.9. BGP Next-Hop
1.6.10. BGP Weight
1.6.11. BGP Local Preference
1.6.12. BGP MED
1.6.13. BGP Origin
1.6.14. BGP Communites
1.6.15. BGP Confederation
1.6.16. BGP Router reflector
1.6.17. BGP Cluster list
1.6.18. BGP Peer Groups
1.6.19. BGP Synchronization
1.6.20. BGP Aggregation
1.6.21. BGP Conditional Advertising
1.6.22. BGP Routing policy
1.6.23. Redistributing IGP, static and connected route into BGP
1.6.24. BGP Multi-path Load Sharing
1.6.25. BGP Link Bandwidth
1.7. Multicast
1.7.1. IPv4/IPv6 Multicast addressing
1.7.2. IPv4/IPv6 Multicast routing
1.7.3. PIM Sparse Mode for IPv4/IPv6
1.7.4. IGMP V2/V3
1.7.5. IPV6 Multicast Listener Discover (MLD)
1.7.6. PIM Source Specific Multicast (SSM) for IPv4/IPv6
1.7.7. Multicast Rate-limiting
1.7.8. PIM Bidirectional (BiDir)
1.7.9. PIM Static RP
1.7.10. PIM Bootstrap Router (BSR)
1.7.11. PIM Auto RP
1.7.12. PIM Anycast RP
1.7.13. Multicast Administrative Boundaries
1.7.14. MSDP
1.7.15. MP-BGP peer for Multicast
1.7.16. MP-BGP Multicast route advertising
1.8. High Availability
1.8.1. NSF/SSO for IGP routing
1.8.2. NSF/SSO for BGP routing
1.8.3. NSF/SSO for LDP, TE, Multicast
1.8.4. HSRP, VRRP, GLBP
1.8.5. Graceful Restart
1.8.6. Control Plane Policing (CPP)
1.8.7. Bidirectional forwarding detection (BFD)
1.8.8. IP event dampening
1.8.9. IGP Fast Re-route
1.8.10. MPLS TE Fast Re-route (FRR)
1.8.11. Link Protection using MPLS-TE
1.8.12. Node Production using MPLS-TE
1.8.13. Embedded event management (EEM)
1.9. Convergence
1.9.1. IS-IS fast convergence
1.9.2. IS-IS to utilize the Overload Bit
1.9.3. OSPF fast convergence
1.9.4. BGP fast convergence
1.9.5. BGP Route Dampening
1.9.6. BGP Fast Peering Session Deactivation
1.9.7. BGP Prefix Independent Convergence (PIC)
1.9.8. BGP next hop tracking
1.9.9. BGP address tracking filter
1.9.10. BGP path MTU discovery
1.9.11. IP fast reroute (IPFRR)
1.9.12. Multicast-only Fast Re-Route (MoFRR)
1.9.13. MPLS LDP convergence
1.10. SP QoS
1.10.1. Marking using DSCP, IP precedence and CoS
1.10.2. Priority Queuing
1.10.3. Custom Queuing
1.10.4. Weighted Fair Queuing
1.10.5. WRED
1.10.6. Policing
1.10.7. Class-based Weighted Faire Queuing (CB-WFQ)
1.10.8. Low-Latency Queuing (LLQ)
1.10.9. Random-Detect using MQC
1.10.10. NBAR for QoS
1.10.11. MPLS EXP
1.10.12. Differentiated Services Traffic Engineering (DS-TE)
1.10.13. Maximum Allocation Model (MAM)
1.10.14. Russian Dolls Model (RDM)
1.10.15. Class-Based Tunnel Selection: CBTS
1.10.16. Policy-based Tunnel Selection: PBTS
1.11. Security in core
1.11.1. Standard Access-lists
1.11.2. Extended Access-lists
1.11.3. Routing Protocol Authentication for RIP V2
1.11.4. Routing Protocol Authentication for EIGRP
1.11.5. Routing Protocol Authentication for OSPF
1.11.6. Routing Protocol Authentication for IS-IS
1.11.7. Routing Protocol Authentication for BGP
1.11.8. BGP TTL Security Check
1.11.9. Infrastructure ACL
1.11.10. Anti Fragment Attacks
1.11.11. Filtering RFC 1918 Routes
1.11.12. uRPF for Anti-Spoofinng
1.11.13. Selective packet discard (SPD)
1.11.14. LDP authentication
1.11.15. Remote triggered black hole (RTBH)
1.11.16. NTP
1.11.17. Attack mitigation
1.11.18. SNMP Management
1.11.19. IP packet Accounting
1.11.20. Syslog
2. Implement, Optimize and Troubleshoot Edge/Access Technologies
2.1. FE/GE and Ethernet Trunk
2.1.1. Ethernet channel
2.1.2. Virtual Trunking Protocol (VTP)
2.1.3. Spanning Tree Protocol (STP)
2.1.4. 802.1Q VLAN
2.1.5. 802.1QinQ
2.1.6. 802.1ad Provider Bridges (PB)
2.1.7. 802.1ah Provider Backbone Bridge (PBB)
2.1.8. Connectivity Fault Management (CFM)
2.2. Frame-Relay connection
2.2.1. Frame-Relay DLCI
2.2.2. Frame-Relay map
2.2.3. Frame-Relay switching
2.2.4. Frame-Relay multilink
2.2.5. Frame-Relay LMI-Type
2.2.6. PPP over Frame-Relay
2.3. PPP connections
2.3.1. PPP encapsulation
2.3.2. PPP multilink
2.3.3. PPP Multi chassis multilink
2.3.4. PPPoE client
2.3.5. PPPoE server
2.3.6. PPP authentication
3. Implement, Optimize and Troubleshoot Layer 3 VPN
3.1. Intra AS L3 MPLS VPN
3.1.1. MP-IBGP VPNv4/VPNv6 peering
3.1.2. MP-IBGP peering using loopback interface
3.1.3. VPNv4/VPNv6 Route Reflector
3.1.4. VRF definition
3.1.5. Route Distinguisher
3.1.6. Route Target
3.1.7. Route Target import/export
3.1.8. Intra AS MPLS VPNV4/VPNV6 load balancing
3.1.9. SOO Community
3.1.10. PE-CE – RIP V2
3.1.11. PE-CE – IS-IS
3.1.12. PE-CE – OSPF
3.1.13. PE-CE – EBGP
3.1.14. PE-CE – Static Routes
3.1.15. Redistributing dynamic PE-CE routes into VPNv4/VPNv6
3.1.16. Redistributing static PE-CE routes into VPNv4/VPNv6
3.1.17. Redistributing VPN4/VPNv6 routes into PE-CE routing table
3.1.18. Intra-AS MPLS VPN multipath
3.1.19. Intra-AS MPLS VPN path selection
3.2. Inter AS L3 MPLS VPN
3.2.1. MP-EBGP VPNv4/VPNv6 peering using direct interface
3.2.2. MP-EBGP VPNv4/VPNv6 peer using multi-hop interface
3.2.3. MP-EBGP VPNv4/VPNv6 peer between RRs
3.2.4. VPNV4/VPNv6 next-hop unchanged
3.2.5. VPNV4/VPNv6 next-hop self
3.2.6. Multi VRF between ASPEs
3.2.7. Inter-AS MPLS VPNV4/VPNv6 multipath
3.2.8. Route target rewrite
3.2.9. Inter-AS MPLS VPN path selection
3.3. Carrier supporting carrier
3.3.1. MPLS LDP in customer carrier site
3.3.2. EBGPv4 + label between CSC-PE and CSC-CE
3.3.3. IGP + LDP between CSC-PE and CSC-CE
3.3.4. MPLS VPNv4 between customer carrier sites PEs
3.3.5. CSC VPN load balancing
3.3.6. VRF definition in customer carrier site
3.3.7. Customer carrier site PE-CE routing
3.4. VPN Extranet and internet access
3.4.1. MP-BGP VPNv4/VPNv6 Extra-Net
3.4.2. MP-BGP VPNv4/VPNv6 internet access
3.5. VRF service
3.5.1. Multiple VRF
3.5.2. Multiple VRF routing
3.5.3. VRF Selection based on Source IP Address
3.6. Multicast VPN
3.6.1. Default MDT
3.6.2. Data MDT
3.6.3. MP-BGP mdt peering
3.6.4. Multicast routing in VPN site
3.6.5. PM-SM in VPN site
3.6.6. RP in VPN site
3.6.7. Multicast VPN extranet
3.7. GRE L3 VPN
3.7.1. MPLS VPN—L3VPN over GRE
4. Implement, Optimize and Troubleshoot Layer 2 VPN
4.1. AToM
4.1.1. Psuedowire class
4.1.2. Ethernet over MPLS (EoMPLS)
4.1.3. Ethernet VLAN over MPLS
4.1.4. Frame Relay over MPLS (FRoMPLS)
4.1.5. HDLC over MPLS (HDLCoMPLS)
4.1.6. PPP over MPLS (PPPoMPLS)
4.1.7. PWE3 control using LDP
4.1.8. Psuedowire redundancy
4.1.9. AToM interworking
4.1.10. AToM local switching
4.1.11. AToM intra-as support
4.1.12. AToM inter-as support
4.1.13. Traffic Engineering with AToM
4.2. VPLS and Carrier Ethernet
4.2.1. VPLS
4.2.2. H-VPLS
4.2.3. VFI definition
4.2.4. VPLS BGP auto discovery
4.2.5. VLAN attached circuit
4.2.6. QinQ attached circuit
4.2.7. 802.1ad attached circuit
4.2.8. 802.1ah attached circuit
4.2.9. VPLS/H-VPLS redundancy
4.3. L2TPV3 for L2VPN
4.3.1. L2TPv3
4.3.2. L2TPv3 VPN local switching
4.3.3. L2TPv3 VPN interworking
4.4. GRE L2VPN
4.4.1. L2VPN over GRE
5. Implement, Optimize and Troubleshoot Managed Services Traversing the Core
5.1. Managed Voice/Video services traversing the core
5.1.1. Traverse Voice/video packet
5.1.2. Traverse call signal packet
5.2. Managed Security services traversing the core
5.2.1. Traverse IKE packet
5.2.2. Traverse ESP, AH packet
5.2.3. Traverse SSL packet
5.3. Service Level Agreements for managed services
5.3.1. IP SLA sender
5.3.2. IP SLA responder
5.3.3. IP SLA for MPLS VPN
5.3.4. Netflow
5.3.5. Netflow for MPLS
5.3.6. Netflow for Multicast
CCIE Service Provider Blueprint
CCIE SP Lab Exam Topics v3.0 √
1.0
Implement, Optimize and Troubleshoot Core IP Technologies
1.1
Implement, Optimize and Troubleshoot Packet over SONET
1.2
Implement, Optimize and Troubleshoot GE/10GE in the core
1.3
Implement, Optimize and Troubleshoot IGP routing
1.4
Implement, Optimize and Troubleshoot MPLS and LDP
1.5
Implement, Optimize and Troubleshoot MPLS Traffic Engineering
1.6
Implement, Optimize and Troubleshoot BGP
1.7
Implement, Optimize and Troubleshoot Muliticast
1.8
Implement, Optimize and Troubleshoot High availability
1.9
Implement, Optimize and Troubleshoot Convergence
1.10
Implement, Optimize and Troubleshoot SP QoS
1.11
Implement, Optimize and Troubleshoot Security in the core
2.0
Implement, Optimize and Troubleshoot Access/Edge Connection Technologies
2.1
Implement, Optimize and Troubleshoot FE/GE and Ethernet Trunk connections
2.2
Implement, Optimize and Troubleshoot Frame-relay connections
2.3
Implement, Optimize and Troubleshoot PPP connections
3.0
Implement, Optimize and Troubleshoot L3VPN Technologies
3.1
Implement, Optimize and Troubleshoot Intra-AS L3VPN
3.2
Implement, Optimize and Troubleshoot Inter-AS L3VPN
3.3
Implement, Optimize and Troubleshoot Carrier Supporting Carrier (CSC)
3.4
Implement, Optimize and Troubleshoot VPN extranet , Internet access
3.5
Implement, Optimize and Troubleshoot VRF Service
3.6
Implement, Optimize and Troubleshoot Multicast VPN
3.7
Implement, Optimize and Troubleshoot GRE L3VPN
4.0
Implement, Optimize and Troubleshoot L2VPN Technologies
4.1
Implement, Optimize and Troubleshoot AToM
4.2
Implement, Optimize and Troubleshoot VPLS and Carrier Ethernet
4.3
Implement, Optimize and Troubleshoot L2TPv3 for L2 VPN
4.4
Implement, Optimize and Troubleshoot GRE L2VPN
5.0
Implement, Optimize and Troubleshoot Managed Services Traversing the Core
5.1
Implement, Optimize and Troubleshoot Managed Voice/Video services traversing the core
5.2
Implement, Optimize and Troubleshoot Managed Security services traversing the core
5.3
Implement, Optimize and Troubleshoot Service Level Agreements for managed services traversing the core
