CCIE Voice

CISCO Courses

Course Features

 
Duration
30 Days
 
Faculty
CCIE certified, also available after course completion on request with prior appointment
 
Equipment
Two Dedicated fully loaded CISCO Racks
 
Author
Keith Barker
Scott Morris
 
Courseware
From Cisco Press
 
Practice Time
Unlimited & Even at night (subject to availability of Lab & Racks)

CCIP: Cisco Certified Internetwork Professional

642-901: Building Scalable Cisco Internetworks (BSCI) v3.0

642-642: Implementing Cisco Quality of Service (QOS) v2.1

642-661: Configuring BGP on Cisco Routers (BGP) v3.2

642-611: Implementing Cisco MPLS (MPLS) v2.1

642-901 : Building Scalable Cisco Internetworks (BSCI) v3.0

In this course, students will learn how to create an efficient and expandable enterprise network by installing, configuring, monitoring, and troubleshooting network infrastructure equipment (especially routers such as Cisco ISRs) according to the Campus Infrastructure module in the Enterprise Composite Network model. The routed network includes the most commonly used and emerging IP routing protocols.

Course Outline:

  • Course Introduction to Routing in an Enterprise Networks
  • Configuring EIGRP
  • Configuring OSPF
  • The IS-IS Protocol
  • Manipulating Routing Updates
  • Implementing BGP
  • Implementing Multicast
  • Implementing the Basics of IPv6

642-642 Implementing Cisco Quality of Service (QOS) v2.1

The Implementing Cisco Quality of Service (QOS) v2.1 course provides students with in-depth knowledge of IP QoS requirements, conceptual models using Differentiated Services (DiffServ), Integrated Services (IntServ) and Best Effort (over provisioning), and the implementation of IP QoS on Cisco IOS switch and router platforms.

The curriculum covers the theory of IP QoS, design issues, and configuration of various QoS mechanisms to facilitate the creation of effective administrative policies providing QoS. Case studies and lab exercises included in the course help students to apply the concepts mastered in individual modules to real-life scenarios.
The course also gives students design and usage rules for various advanced IP QoS features and the integration of IP QoS with underlying Layer 2 QoS mechanisms, allowing them to design and implement efficient, optimized, and trouble-free multi-service networks.

Course Objective:

After completing this course, the student should be able to:

  • Given a converged network, explain the need to implement Quality of Service (QoS) and explain methods for implementing and managing QoS
  • Given a converged network, identify and describe different models used for ensuring QoS in a network and explain key IP QoS mechanisms used to implement the models
  • Given a converged network, explain the use of MQC and AutoQoS to implement QoS on the network
  • Given a converged network and a policy defining QoS requirements, successfully classify and mark network traffic to implement the policy

Course Outline:

  • Module 1: Introduction to IP QoS
  • Module 2: The Building Blocks of IP QoS
  • Module 3: Introduction to Modular QoS CLI and Auto-QoS
  • Module 4: Classification and Marking Module
  • Module 5: Congestion Management
  • Module 6: Congestion Avoidance
  • Module 7: Traffic Policing and Shaping
  • Module 8: Link Efficiency Mechanisms
  • Module 9: QoS Best Practices

642-661 Configuring BGP on Cisco Routers (BGP) v3.2

The Configuring BGP on Cisco Routers (BGP) v3.2 course provides students with in-depth knowledge of BGP, the routing protocol that is one of the underlying foundations of the Internet and new-world technologies such as Multiprotocol Label Switching (MPLS). This curriculum covers the theory of BGP, configuration of BGP on Cisco IOS routers, detailed troubleshooting information and hands-on exercises that provide students with the skills needed to configure and troubleshoot BGP networks in customer environments. Different service solutions in the curriculum cover BGP network design issues and usage rules for various BGP features preparing students to design and implement efficient, optimal and trouble free BGP networks.

Course Objective

After completing this course the student should be able to:

  • Given a network scenario with multiple domains, configure, monitor and troubleshoot basic BGP to enable interdomain routing
  • Given a network scenario where connections to multiple ISPs must be supported, use BGP policy controls to influence the route selection process with minimal impact on BGP route processing
  • Given a network scenario where multiple connections must be supported, use BGP attributes to influence the route selection process
  • Given customer connectivity requirements, implement the correct BGP configuration to successfully connect the customer’s network to the Internet
  • Given a typical service provider network with multiple BGP connections to other autonomous systems, enable the provider network to behave as a transit autonomous system
  • Given a typical service provider network, identify common BGP scaling issues and enable route reflection and confederations as possible solutions to these issues
  • Given a typical BGP network, use available BGP tools and features to optimize the scalability of the BGP routing protocol

Course Outline

  • BGP Overview
  • BGP Transit Autonomous Systems
  • Route Selection Using Policy Controls
  • Route Selection Using Attributes
  • Customer to Provider Connectivity with BGP
  • Scaling Service Provider Networks
  • Optimizing BGP Scalability

642-611 Implementing Cisco MPLS (MPLS) v2.1

The course will enable learners to gather information from the technology basics to advanced VPN configuration. The focus of the course is on VPN technology issues of MPLS from the Service Providers perspective and how to configure some of those features and functions in an existing routed environment. A basic introductory level of some of the more updated features and functions such as Traffic Engineering, Fast Reroute and Any Transport over MPLS (AToM) are introduced on a concept level only and the MPLS Traffic Engineering and other Features course should be taken for in depth learning of those topics The MPLS course is a qualifying exam for the Cisco Certified Internetwork Professional certification. The 642-611 MPLS exam will test materials covered under the Implementing Cisco MPLS course. The exam will certify that the successful candidate has knowledge and skills necessary to gather information from the technology basics to some of the more updated features and functions such as Traffic Engineering, Fast Reroute and any Transport over MPLS (AToM). The exam covers topics on MPLS Concepts, MPLS Label Assignment and Distribution, Frame-Mode/Cell-Mode MPLS Implementation on Cisco IOS Platforms, MPLS Virtual Private Networks Technology, MPLS VPN Implementation, Complex MPLS VPNs, and Internet Access from a MPLS VPN.

Course Objective:

Upon completion of the Internetworking with Cisco MPLS (MPLS) course the student will be able to:

  • Describe basic MPLS frame-mode and cell-mode architectures and identify how it supports applications that are used to address the drawbacks in traditional IP routing
  • Describe the Label Distribution Protocol (LDP) process by explaining label allocation, label distribution, label retention, label convergence and Penultimate Hop Popping (PHP) in both frame and cell modes
  • Given a diagram of a typical MPLS network solution, identify the Cisco IOS command syntax required to successfully configure and monitor MPLS operations on frame, switched WAN and LC-ATM interfaces
  • Describe MPLS’s peer-to-peer architecture and explain the routing and packet forwarding model in this architecture
  • Given a diagram of a typical simple MPLS VPN solution, identify the Cisco IOS command syntax required to successfully configure, monitor, and troubleshoot VPN operations
  • Given a diagram of a typical simple, hub-and-spoke, overlapping and central services MPLS VPN solution identify the Cisco IOS command syntax required to successfully configure VPN operations and describe how these model are used to implement managed services and Internet access

Course Outline:

  • MPLS Concepts
  • MPLS Label Assignment and Distribution Frame- Mode / Cell-Mode
  • MPLS Implementation on Cisco IOS Platforms
  • MPLS Virtual Private Networks Technology
  •  MPLS Virtual Private Networks Implementation
  •  MPLS Virtual Private Networks Advanced Features

MPLS Fundamentals

  • Explain basic core MPLS technology and concepts
  • Explain the function of MPLS Labels and Label Stack
  • Identify MPLS Applications

MPLS Operation

  • Describe the characteristics and behaviors of Label Distribution in Frame-mode MPLS
  • Explain Convergence in Frame-mode MPLS
  • Describe the characteristics and behaviors of Label Distribution over LC-ATM Interfaces and VC Merge
  • Describe the features of MPLS Label Allocation, Distribution, and Retention Modes
  • Explain the process of LDP Neighbor Discovery

Frame-Mode/Cell-Mode MPLS Implementation, Configuration and Troubleshooting

  • Identify the functions of CEF Switching
  • Explain and configure Frame-mode MPLS on Cisco IOS platforms
  • Monitor MPLS on Cisco IOS platforms – Frame-mode interfaces
  • Troubleshoot Frame-Mode MPLS configurations on Cisco IOS Platforms
  • Explain and configure Label-Controlled ATM MPLS
  • Explain and configure LC-ATM MPLS over ATM Virtual Path
  • Monitor LC-ATM MPLS on Cisco IOS platforms

MPLS Virtual Private Networks Technology

  • Describe the characteristics and functions of Virtual Private Networks
  • Describe Overlay and Peer-to-Peer VPNs
  • Explain Major VPN Categorization
  • Describe MPLS VPN Architecture
  • Describe the MPLS VPN Routing Model
  • Explain the process of MPLS VPN Packet Forwarding

MPLS VPN Implementation, Configuration and Troubleshooting

  • Explain MPLS VPN Mechanisms supported on Cisco Platforms
  • Configure VRF tables
  • Configure MP-BGP Session between PE routers
  • Configure Small Scale Routing Protocols
  • Monitor MPLS VPN Operation
  • Configure OSPF as the Routing Protocol
  • Configure BGP as the Routing Protocol
  • Troubleshoot basic MPLS VPN configuration errors

Complex MPLS VPNs

  • Describe the advanced VRF Import/Export Features
  • Explain the characteristics of Overlapping VPNs
  • Explain the features of Central Services VPNs
  • Describe Managed CE Router Service

Internet Access from a MPLS VPN

  • Explain VPN Internet Access Topologies
  • Describe VPN Internet Access Implementation Methods
  • Describe the methods to Separate Internet Access from VPN Service
  • Internet Access Backbone as a Separate VPN

For questions regarding Course registration and schedules, please call Customer Service at +91 9664443555 / 2555

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