Description

Cisco 360 CCIE R&S Advanced Workshop 1 (CIERS-1) v1.0 is the first of two 5-day, extended hours, workshops. CIERS-1 v1.0 including Instructor Led lessons, a lab guide and hands-on labs on specific topics, as well as Assessment labs, including instructor time and feedback to provide student mentoring and support.

CIERS-1 v1.0 teaches learners how to use an expert-level problem-solving process that includes options analysis to support complex network technologies and topologies. This course is part of a blended learning curriculum that supports expert-level preparation in routing and switching.

Objectives

Upon completing this course, learners will be able to meet these objectives:

• Describe the Cisco 360 Learning Program for CCIE R&S and explain how it addresses expert-level networking issues
• Discuss your baseline status for Cisco CCIE® lab readiness
• Resolve expert-level core task analysis and configuration issues
• Resolve expert-level BGP issues
• Resolve expert-level multicast task analysis and configuration issues
• Resolve expert-level IP connectivity issues regardless of whether they involve IPv4 or IPv6
• Resolve expert-level router MQC QoS task analysis and configuration issues
• Resolve expert-level multi-topic core and advanced task analysis and configuration issues

Boot Camp Hours:

The duration of this boot camp is 5 days.
Monday – Thursday: 9:00 AM - 9:00 PM
Friday: 9:00 AM - 2:00 PM

What the Students Get:

• Upon registration, the students will receive an E-COPY of “The Foundation 2.0” Work Book to prepare for the Boot Camp. The students should complete the “The Foundation 2.0” Work Book before attending the boot camp. If you cancel your registration for the class after receiving your e-copy of the “The Foundation2.0” Work Book, you will be liable for a minimum of $100.00 for the Work Book.
• During the Boot Camp, the students will receive the “Advanced CCIE Routing and Switching 2.0 Work Book” Which is also written by Narbik Kocharians
• Cisco’s 360 Program Courseware and Lab Guide

Instructor:

Narbik Kocharians CCSI, CCIE #12410 (R&S, Security, SP)

Narbik a Triple CCIE has over 32 years of experience in the industry. He has designed, implemented and supported numerous enterprise networks. Some of the companies that Narbik has worked for are IBM, Carlton United Breweries, Australian Cable and Wireless, BP, AMOCO and in US, 20th Century Ins., Home Saving of America, Verizon, TTI, Trinet Inc, NLI, IPexpert, Anderson Networking and Consulting and many more. Narbik has been a dedicated CCIE instructor for over 12 years.

Course Delivery Method

This boot camp is a combination of lecture and hands-on labs

In the Boot Camp the instructor uses a combination of “Chalk talk” and “one on one mentoring”, the instructor will not use an overhead projector, Micronics believes in traditional method of teaching.

The class-room material and hardware are based on current CCIE Routing and Switching Blueprint.

Prerequisites

The knowledge and skills that a learner must have before attending this course are these advanced-level competencies (knowledge and skills):

• Layer 2 and Layer 3 switching skills
• RIPv2, EIGRP, and OSPF configuration skills
• BGP configuration skills
• Multicast configuration skills
• IPv6 fundamentals
• QoS configuration skills
• CCNP or equivalent knowledge
• Review of “The Foundation 2.0” Work Book sent to you upon registration in the class

These training courses are recommended to meet the prerequisites:

• Building Scalable Cisco Internetworks (BSCI)
• Building Cisco Multilayer Switched Networks (BCMSN)
• Implementing Secure Converged WANs (ISCW)
• Optimizing Converged Cisco Networks (ONT)
• Configuring BGP on Cisco Routers (BGP)
• Implementing Cisco Quality of Service (QOS)

It is strongly suggested that the learner has passed the CCIE Routing and Switching Written exam.

Who Should Attend

The primary audience for this course is network engineers that need be able to use an expert-level problem-solving process that includes options analysis to support complex network technologies and topologies.

The secondary audience is network designers that design and support complex network technologies and topologies.

• Module 1: Cisco 360 Learning Program for CCIE R&S
  • Lesson 1-1: Introducing the Cisco 360 Learning Program for CCIE R&S
    • What Is an Internetworking Expert?
    • Common Questions Asked by CCIE Candidates
    • Cisco 360 CCIE R&S Domain
    • Cisco 360 CCIE R&S blended learning resources
  • Lesson 1-2: Preparing for the Cisco CCIE Lab Exam
    • Approaching the CCIE Lab Exam
    • Modular Preparation
    • CCIE-Level Problem-Solving Process
    • Using Assessments to Measure Progress
• Module 2: Core Task Assessment
  • Lesson 2-1: Applying the Cisco 360 CCIE R&S Opening-Moves Strategy to Cisco CCIE Labs
    • Applying the Cisco 360 CCIE R&S Problem-Solving Process to CCIE-Level Labs
    • Using Preconfiguration Tools on the CCIE Lab
    • Previewing CIERSASSESS-1
  • Lesson 2-2: Analyzing the Cisco 360 CCIE R&S Assessment Results Report
    • Using the Cisco 360 CCIE R&S Assessment Results Report
    • Planning Your Next Steps from Your Results Report
• Module 3: Core Task Analysis and Configuration
  • Lesson 3-1: Resolving Frame Relay Tasks
    • Reviewing Frame Relay
    • Identifying Potential Issues with Frame Relay Technology
  • Lesson 3-2: Resolving Ethernet Switching Tasks
    • Reviewing Ethernet Switching
    • Identifying Strategies for Ethernet Switching Tasks
    • Reviewing CIERSASSESS-1 Ethernet Switching Tasks
    • CCIE Lab Exam Tips for Ethernet Switching
  • Lesson 3-3: Resolving IGP Tasks
    • Reviewing Routing Protocols
    • Identifying Strategies for RIP Tasks
    • Identifying Strategies for EIGRP Tasks
    • Identifying Strategies for OSPF Tasks
    • Comparing RIP, EIGRP, and OSPF
    • CCIE Lab Exam Tips for IGP Tasks
  • Lesson 3-4: Resolving Redistribution Tasks
    • Reviewing Redistribution
    • Identifying Strategies for Redistribution Tasks
    • CCIE Lab Exam Tips for Redistribution Tasks
• Module 4: BGP Task Analysis and Configuration
  • Lesson 4-1: Reviewing Basic BGP Operations
    • Reviewing BGP Fundamentals
    • Configuring Basic Peering
    • Originating Routes into BGP
    • Issues in BGP Route Advertisement
    • CCIE Lab Exam Tips for BGP Tasks
  • Lesson 4-2: Resolving Advanced BGP Tasks
    • Review of BGP Peering
    • Next-Hop Reachability Issues
    • BGP Synchronization Issues
    • Resolving BGP Update Filtering Requirements
    • Resolving BGP Path Determination Requirements
• Module 5: Multicast Task Analysis and Configuration
  • Lesson 5-1: Reviewing Basic Multicast Operations
    • Reviewing IP Multicast
    • Reviewing IP Multicast Addressing
    • IP Multicast Group Membership
    • PIM Dense Mode Operations
    • Understanding Potential Issues with PIM-DM
  • Lesson 5-2: Resolving PIM Sparse Mode Multicast Tasks
    • Comparing Multicast Modes
    • PIM Sparse Mode Operations
    • Sparse Mode Configuration on R1
    • RP Considerations
    • Identifying Strategies for Multicast Tasks
• Module 6: IPv6 Task Analysis and Configuration
  • Lesson 6-1: Strengthening IPv4 Skills by Learning IPv6
    • Reviewing IPv6
    • IPv6 Address Assignment
    • Configuring IPv6 on Links
    • Tunneling IPv6
    • IPv6 IGP Routing
    • IPv6 Redistribution
• Module 7: Router MQC QoS Task Analysis and Configuration
  • Lesson 7-1: Reviewing MQC QoS and DiffServ
    • Reviewing MQC QoS
    • Reviewing DiffServ
  • Lesson 7-2: Using DiffServ Tools
    • Using MQC DiffServ Edge Tools for Class-Based Shaping
    • Using MQC DiffServ Edge Tools for Class-Based Policing
    • Using MQC DiffServ Edge Tools for Marking Traffic with the MQC set Command
  • Lesson 7-3: Using Congestion Management and Avoidance Tools
    • Using MQC Congestion Management Tools
    • Using MQC Congestion Avoidance Tools
  • Lesson 7-4: Identifying Strategies for Router MQC QoS Tasks
    • Identifying Strategies for Traffic Classification
    • Determining the QoS Policy Needed for the Task
    • Determining How to Apply the MQC Policy Map
• Module 8: Cisco Catalyst Switch QoS Task Analysis and Configuration
  • Lesson 8-1: Ensuring QoS for the Catalyst 3560 Series Switch
    • Overview of Catalyst 3560 Series QoS
    • Using Trust to Support QoS
    • Using the MQC to Implement QoS on the Catalyst 3560 Series
    • Configuring Catalyst Switch Queues
    • Using AutoQoS
    • CCIE Lab Exam Tips
• Module 9: Core and Advanced Task Analysis

Lab Outline

• Lab 2-1 : CIERSASSESS-1
• Lab 4-1: Establishing Basic Connectivity for BGP
• Lab 4-2: Configuring BGP
• Lab 4-3: Filtering BGP Updates and Path Determination
• Lab 5-1: Establishing Basic Connectivity for IP Multicast
• Lab 5-2: Configuring Dense Mode IP Multicast Routing
• Lab 5-3: Configuring PIM Sparse Mode
• Directed Activity 6-1: Enabling IPv6 on a Catalyst 3560 Switch
• Directed Activity 6-2: IPv6 Addressing Using a Static Prefix and Static Interface ID
• Directed Activity 6-3: Configuring IPv6 over Frame Relay
• Directed Activity 6-4: Configuring IPv6 over an ISATAP Tunnel
• Directed Activity 6-5: Enabling OSPFv3 over a Frame Relay Link
• Directed Activity 6-6: Summarizing a Set of IPv6 prefixes with OSPFv3
• Directed Activity 6-7: Configuring OSPFv3 over ISATAP
• Directed Activity 6-8: Configuring RIPng
• Directed Activity 6-9: Performing Redistribution between OSPFv3 and RIPng
• Directed Activity 6-10: Filtering a RIPng External Prefix from OSPFv3
• Lab 6-1: Configuring Data Link Layer Technologies and IPv4 Infrastructure
• Lab 6-2: Attaining Universal Connectivity for IPv6 Unicast Traffic on a Data-Link-Layer Basis
• Lab 6-3: Enabling IPv6 Routing and Performing IPv6 Redistribution
• Directed Activity 7-1: Examining Operation of the shape average Command
• Directed Activity 7-2: Examining Operation of a Modified shape average Command
• Directed Activity 7-3: Examining the shape average Command When Be = 0
• Directed Activity 7-4: Configuring the shape peak Command
• Directed Activity 7-5: Configuring the MQC shape Command with the percent Option
• Directed Activity 7-6: Configuring a Single-Rate Two-Color Marker
• Directed Activity 7-7: Configuring a Single-Rate Two-Color Marker with Large Conform Burst
• Directed Activity 7-8: Configuring a Single-Rate Three-Color Marker
• Directed Activity 7-9: Configuring Basic LLQ
• Directed Activity 7-10: Configuring LLQ and Manipulating the max-reserved-bandwidth
• Directed Activity 7-11: Configuring the priority Command with LLQ
• Lab 8-1: Establishing Basic Connectivity for Catalyst Switch QoS
• Lab 8-2: Exploring Catalyst 3560 Series QoS Concepts
• Lab 8-3: Implementing VLAN-Based QoS
• Lab 9-1: CIERSASSESS-2