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Available Courses

Expert Level

Routing & Switching (CCIE)

Service Provider (CCIE)

Security (CCIE)

Voice (CCIE)

Professional Level

CCSP (Security Pro)

CCNP (Network Pro)

CCVP (Voice Pro)

CCIP (Internetwork Pro)

CCDP (Design Pro)

CCNA (Network Associate)

CCDA (Design Associate)

Advance Specialist Level

Advance BGP

Advance MPLS & VPN

Advance Pix Firewall

Advance Security & VPN

Advance Multicast

Quality of Service

Unity CUE & CME

Gateway & Gatekeeper

Cisco IP Telephony

C Voice

CCIP

CCIP Certification

The CCIP (Cisco Certified Internetwork Professional) provides individuals working in service provider organizations with competencies in infrastructure IP networking solutions. CCIP professionals have detailed understanding of networking technologies in the service provider arena including IP routing, IP QoS, BGP, and MPLS.

CCIP Exams & Recommended Training

642-892           Composite Building Scalable Cisco Internetworks (BSCI)

642-642           QOS Implementing Cisco Quality of Service (QoS)

642-661           BGP Configuring BGP on Cisco Routers (BGP)

642-611           MPLS Implementing Cisco MPLS (MPLS)

642-892           Composite Building Scalable Cisco Internetworks (BSCI)

642-642           QOS Implementing Cisco Quality of Service (QoS)

642-691           BGP+MPLS Configuring BGP on Cisco Routers (BGP)
                        Implementing Cisco MPLS (MPLS)

642-901 BSCI ( Building Scalable Cisco Internetworks )

The Building Scalable Cisco Internetworks (BSCI 642-901) is a qualifying exam for the Cisco Certified Network Professional CCNP?, Cisco Certified Design Professional CCDP?, and Cisco Certified Internetwork Professional CCIP? certifications. The BSCI 642-901 exam will certify that the successful candidate has important knowledge and skills necessary to use advanced IP addressing and routing in implementing scalability for Cisco ISR routers connected to LANs and WANs. The exam covers topics on Advanced IP Addressing, Routing Principles, Multicast Routing, IPv6, Manipulating Routing Updates, Configuring basic BGP, Configuring EIGRP, OSPF, and IS-IS.

Exam Topics

The following information provides general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes the guidelines below may change at any time without notice.

Implement EIGRP operations.

Explain the functions and operations of EIGRP (e.g., DUAL).
Configure EIGRP routing. (e.g., Stub Routing, authentication, etc.)
Verify or troubleshoot EIGRP routing configurations.

Implement multiarea OSPF operations.

Explain the functions and operations of multiarea OSPF.
Configure multiarea OSPF routing. (e.g., Stub, NSSA, authentication, etc.)
Verify or troubleshoot multiarea OSPF routing configurations.

Describe integrated IS-IS.

Describe the features and benefits of integrated IS-IS.
Configure and verify integrated IS-IS.

Implement Cisco IOS routing features.

Describe, configure or verify route redistribution between IP routing IGPs. (e.g., route-maps, default routes, etc.)
Describe, configure or verify route filtering (i.e., distribute-lists and passive interfaces).
Describe and configure DHCP services (e.g., Server, Client, IP helper address, etc.).

Implement BGP for enterprise ISP connectivity

Describe the functions and operations of BGP.
Configure or verify BGP operation in a non-transit AS (e.g., authentication).
Configure BGP path selection. (i.e., Local Preference, AS Path, Weight or MED attributes).

Implement multicast forwarding.

Describe IP Multicast (e.g., Layer-3 to Layer-2 mapping, IGMP, etc.).
Describe, configure, or verify IP multicast routing (i.e., PIM Sparse-Dense Mode).

Implement IPv6.

Describe IPv6 addressing operations.
Describe IPv6 interoperation with IPv4.
Describe, configure or verify OSPF routing with IPv6 addressing.

642-892 Composite Exam

The Composite exam (642-892) is the quickest way for currently certified Cisco Certified Network Professionals (CCNP?) and Cisco Certified Design Professionals (CCDP?) to obtain recertification. The exam tests skills and knowledge pertaining to the Building Scalable Cisco Internetworks (BSCI) and Building Cisco Managed Switched Networks (BCMSN) courses. Composite may be taken to recertify CCNP and CCDP certifications; it may also be taken in place of the BSCI and BCMSN exams required for CCNP and CCDP certifications. Candidates must successfully pass both routing and switching subsections of the Composite exam to successfully pass the exam.

Exam Topics

Implement EIGRP operations

Explain the functions and operations of EIGRP (e.g., DUAL)
Configure EIGRP routing. (e.g., Stub Routing, authentication, etc.)
Verify or troubleshoot EIGRP routing configurations

Implement multi-area OSPF operations

Explain the functions and operations of multiarea OSPF
Configure multiarea OSPF routing. (e.g., Stub, NSSA, authentication, etc.)
Verify or troubleshoot multiarea OSPF routing configurations

Describe integrated IS-IS

Describe the features and benefits of integrated IS-IS
Configure and verify integrated IS-IS

Implement Cisco IOS routing features

Describe, configure or verify route redistribution between IP routing IGPs. (e.g., route-maps, default routes, etc.)
Describe, configure or verify route filtering (i.e., distribute-lists and passive interfaces)
Describe and configure DHCP services (e.g., Server, Client, IP helper address, etc.)

Implement BGP for enterprise ISP connectivity

Describe the functions and operations of BGP
Configure or verify BGP operation in a non-transit AS (e.g., authentication)
Configure BGP path selection. (i.e., Local Preference, AS Path, Weight or MED attributes)

Implement multicast forwarding

Describe IP Multicast (e.g., Layer-3 to Layer-2 mapping, IGMP, etc.)
Describe, configure, or verify IP multicast routing (i.e., PIM Sparse-Dense Mode)

Implement IPv6

Describe IPv6 addressing operations
Describe IPv6 interoperation with IPv4
Describe, configure or verify OSPF routing with IPv6 addressing

Implement VLANs

Explain the functions of VLANs in a hierarchical network
Configure VLANs (e.g., Native, Default, Static and Access)
Explain and configure VLAN trunking (i.e., IEEE 802.1Q and ISL)
Explain and configure VTP
Verify or troubleshoot VLAN configurations

Conduct the operation of Spanning Tree protocols in a hierarchical network

Explain the functions and operations of the Spanning Tree protocols (i.e., RSTP, PVRST, MISTP)
Configure RSTP (PVRST) and MISTP
" Describe and configure STP security mechanisms (i.e., BPDU Guard, BPDU Filtering, Root Guard)
Configure and Verify UDLD and Loop Guard
Verify or troubleshoot Spanning Tree protocol operations
Configure and verify link aggregation using PAgP or LACP

Implement Inter-VLAN routing

Explain and configure Inter-VLAN routing (i.e., SVI and routed ports)
Explain and enable CEF operation
Verify or troubleshoot InterVLAN routing configurations

Implement gateway redundancy technologies

Explain the functions and operations of gateway redundancy protocols (i.e., HSRP, VRRP, and GLBP)
Configure HSRP, VRRP, and GLBP
Verify High Availability configurations

Describe and configure wireless client access

Describe the components and operations of WLAN topologies (i.e., AP and Bridge)
Describe the features of Client Devices, Network Unification, and Mobility Platforms (i.e., CCX, LWAPP)
Configure a wireless client (i.e., ADU)

Describe and configure security features in a switched network

Describe common Layer 2 network attacks (e.g., MAC Flooding, Rogue Devices, VLAN Hopping, DHCP Spoofing, etc.)
Explain and configure Port Security,802.1x, VACLs, Private VLANs, DHCP Snooping, and DAI
Verify Catalyst switch (IOS-based) security configurations (i.e., Port Security, 802.1x, VACLs, Private VLANs, DHCP Snooping, and DAI)

Configure support for voice

Describe the characteristics of voice in the campus network
Describe the functions of Voice VLANs and trust boundaries
Configure and verify basic IP Phone support (i.e. Voice VLAN, Trust and CoS options, AutoQoS for voice)

642-642 QoS

The QOS exam is one of the qualifying exams for the Cisco Certified Internetwork Professional, Cisco Certified Voice Professional, Cisco IP Telephony Design Specialist, Cisco IP Telephony Express Specialist, Cisco IP Telephony Operations Specialist, and Cisco IP Telephony Support Specialist certifications. The QOS 642-642 exam will test materials covered under the Implementing Cisco Quality of Service QOS v2.1 course. The exam will certify that the successful candidate has knowledge and skills necessary to configure and troubleshoot Cisco IOS routers running Quality of Service protocols in Service Provider and Enterprise environments. The exam covers topics on IP QOS, classification and marking Mechanisms, queuing mechanisms, traffic shaping and policing mechanisms, congestion avoidance mechanisms, link efficiency mechanisms, modular QOS command line interface, and QOS Best Practices.

Exam Topics

The following information provides general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam.

IP QoS Fundamentals

Given a description of a converged network, identify problems that could lead to poor quality of service and explain how the problems might be resolved
Define the term Quality of Service (QoS) and identify and explain the key steps to implementing QoS on a converged network

IP QoS Components

List and explain the models for providing Quality of Service on a network
Explain the purpose and function of the DiffServ model
Describe the basic format of and explain the purpose of the DSCP field in the IP header
Define and explain the different per hop behaviors used in DSCP
Explain the interoperability between DSCP-based and IP-precedence-based devices in a network
Given a list of QoS actions, correctly match the QoS actions to mechanisms for implementing QoS and identify where in a network the different QoS mechanisms are commonly used

Modular QoS CLI and Auto-QoS

Given a network requiring QoS, explain how to implement a QoS policy using MQC
Explain how AutoQoS is used to implement QoS policy

Classification and Marking

Explain how link layer and network layer markings are used to define service classes and the different applications represented by each of these service classes
Given a network and a description of QoS issues, use MQC CLI commands to classify packets
Given a network and a description of QoS issues, use class-based marking to assign packets to a specific service class
Describe the function of Network Based Application Recognition
Describe the purpose of pre-classification to support QoS in various VPN (IPSEC, GRE, L2TP) configurations
Describe QoS trust boundaries and their significance in LAN based classification and marking
Identify the different classification and marking options available on Cisco L2 and L3 switching platforms

Congestion Management Methods

List and explain the different queuing algorithms
Explain the components of hardware and software queuing systems on Cisco routers and how they are effected by tuning and congestion
Describe the benefits and drawbacks of using WFQ to implement QoS
Explain the purpose and features of Class-Based WFQ (CBWFQ)
Explain the purpose and features of Low Latency Queuing (LLQ)
Identify the Cisco IOS commands required to configure and monitor LLQ on a Cisco router
Describe and explain the different queuing capabilities available on the Cisco Catalyst 2950 Switch

Congestion Avoidance Methods

Describe the drawbacks tail drop as a congestion control mechanism
Describe the elements of a RED traffic profile
Describe Weighted Random Early Detection and how it can be used to prevent congestion
Identify the Cisco IOS commands required to configure and monitor DSCP-based CB-WRED
Explain how ECN interacts with WRED in Cisco IOS

Traffic Policing and Shaping

Describe the purpose of traffic conditioning using traffic policing and traffic shaping and differentiate between the features of each
Explain how network devices measure traffic rates using single rate or dual rate, single or dual token bucket mathematical models
Identify the Cisco IOS commands required to configure and monitor single rate and dual rate CB-Policing
Identify the Cisco IOS commands required to configure and monitor percentage based CB-Policing
Explain how the two rate limits, average rate and peak rate, can be used to rate limit traffic
Identify the Cisco IOS commands required to configure and monitor CB-Shaping
Identify the Cisco IOS commands required to configure and monitor Frame Relay adaptive CB-Shaping on Frame Relay interfaces

Link Efficiency Mechanisms

Explain the various link efficiency mechanisms and their function
Identify the Cisco IOS commands required to configure and monitor CB header compression
Given a list of link speeds and a specific delay requirement, determine the proper fragment size to use at each link speed and identify the typical delay requirement for VoIP packets
Identify the Cisco IOS commands required to configure and monitor Multilink PPP with Interleaving
Identify the Cisco IOS commands required to configure and monitor FRF.12

QoS Best Practices

Explain the QoS requirements of the different application types
List typical enterprise traffic classes then identify the delay, jitter, packet loss and bandwidth requirements of each traffic class
Explain the best practice QoS implementations and configurations within the campus LAN
Explain the best practice QoS implementations and configurations on the WAN customer edge (CE) and provider edge (PE) routers

642-661 BGP

The 642-661 BGP exam is a qualifying exam for the CCIP certification. The 642-661 BGP exam tests material covered under the Configuring BGP on Cisco Routers (BGP) v 3.1 course. The BGP exam assesses a candidate's understanding of the theory of BGP, ability to configure BGP on Cisco IOS routers, and skills with troubleshooting on BGP. As a routing protocol, BGP is one of the underlying foundations of the Internet and new-world technologies.

Exam Topics

The following information provides general guidelines for the content likely to be included on the BGP exam. However, other related topics may also appear on any specific delivery of the exam.

BGP Overview

Introduction to BGP

Given a network scenario, identify appropriate BGP usage and its limitations

BGP Session Establishment

Given a typical BGP network scenario, describe the concept of BGP neighbors and the neighbor session establishment procedures

BGP Route Processing

Given a diagram of an operational BGP network, describe interdomain route processing, route propagation and BGP path selection

Basic BGP Configuration

Given a network consisting of multiple domains, successfully configure BGP

Monitoring and Troubleshooting BGP

Given a configured BGP network, verify proper operation and perform the steps necessary to correct basic BGP configuration errors

Route Selection Using Policy Controls

Multi-Homed BGP Networks

Given a customer scenario where connections to multiple ISPs must be supported, describe the need for influencing BGP route selection

AS-Path Filters

Given a customer scenario where connections to multiple ISPs must be supported, successfully configure BGP to influence route selection using AS path filters

Prefix-List Filters

Given a customer scenario where connections to multiple ISPs must be supported, successfully configure BGP to influence route selection using prefix-list filters

Outbound Route Filtering

Given an operational BGP network, use outbound route filtering to minimize the impact of BGP routing updates on router resources

Route-Maps as BGP Filters

Given a typical BGP network, correctly configure BGP to influence route selection using route maps

Implementing Changes in BGP Policy

Given a typical BGP network, configure the route-refresh feature to minimize the impact of expediting BGP policy updates

Route Selection Using Attributes

BGP Path Attributes

List BGP path attributes and functionality of each attribute Influencing BGP Route Selection with Weights
Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using the weight attribute

BGP Local Preference

Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using the local preference attribute

BGP Multi-Exit-Discriminator (MED)

Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using the Multi-Exit-Discriminator (MED) attribute

BGP Communities

Given a customer scenario where multiple connections must be supported, successfully configure BGP to influence route selection using BGP community attributes

Customer-to-Provider Connectivity with BGP

Customer Connectivity Requirements

Describe the requirements to connect customer networks to the Internet in a service provider environment

Static Routing Toward the Customer

Given a service provider network, implement customer connectivity using static routing

BGP Customer Multi-Homed to a Single Service Provider

Given a customer scenario where multiple connections to a single ISP must be supported, implement customer connectivity with BGP

BGP Customer Multi-Homed to Multiple Service Providers

Given a customer scenario where connections to multiple ISPs must be supported, implement customer connectivity with BGP

BGP Transit Autonomous System

Transit Autonomous System Functions

Describe the function of a transit autonomous system and the need for IBGP IBGP and EBGP Interaction in a Transit AS
Given a transit autonomous system, describe the interaction between EBGP and IBGP in relation to relevant BGP attributes

Packet Forwarding in Transit Autonomous Systems

Describe the function of an IGP in forwarding packets through an autonomous system

Configuring a Transit Autonomous System

Given a BGP network scenario, successfully configure an autonomous system to act as a transit backbone

Monitoring and Troubleshooting IBGP in Transit AS

Given a configured BGP transit network, verify proper operation and perform the steps necessary to correct basic IBGP configuration errors

BGP Route Reflectors

Introduction to Route Reflectors

Describe the function and operation of route reflectors in a BGP environment

Network Design with Route Reflectors

Based upon established route reflector design rules, describe the concept of hierarchial route reflectors and their requirements

Configuring and Monitoring Route Reflectors

Given an existing IBGP network, configure and verify proper operation of route reflectors to modify IBGGP split-horizon rules

Advanced BGP Configuration

Limiting the Number of Prefixes Received from a BGP Neighbor

Given a typical BGP network, successfully configure BGP to limit the number of prefixes received from a neighbor

AS-Path Prepending

Given a typical service provider network with connections to multiple autonomous systems, use AS-Path prepending to influence the return path selected by the neighboring autonomous systems

BGP Peer Group

Given a typical BGP network, use BGP peer groups to share common configuration parameters between multiple BGP peers

BGP Route Flap Dampening

Given a properly configured BGP network, use route flap dampening to minimize the impact of unstable routes

Scaling IGP and BGP in Service Provider Networks

Common Routing Issues in Service Provider Networks

Describe common routing concerns of service provider networks

Optical Networking Designs

Describe the scalability issues of using OSPF and IS-IS as interior gateway protocols in a service provider network and list solutions for each

Scaling BGP in Service Provider Networks

Describe common scalability issues when using BGP in a service provider network and list solutions for each

642-611 MPLS

The MPLS exam is a qualifying exam for the CCIP certification (Cisco Certified Internetwork Professional). 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.

Exam Topics

The following information provides general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam.

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

642-691 BGP+MPLS

The BGP+MPLS exam is the quickest way for currently certified CCIP (Cisco Certified Internetwork Professionals) to obtain recertification. The exam tests skills and knowledge pertaining to the Configuring BGP on Cisco Routers (BGP) and Implementing Cisco MPLS (MPLS) courses. BGP+MPLS may be taken to recertify your CCIP certification. It may also be taken in place of the BGP and MPLS exams required for the CCIP certification.

Exam Topics

The following information provides general guidelines for the content likely to be included on the BGP+MPLS Exam. However, other related topics may also appear on any specific delivery of the exam.

Technology

Understand and explain Core MPLS technology and concepts
Understand and explain MPLS VPN technology and concepts
Understand and explain basic BGP concepts and operations
Understand and explain how to Scale IGP and BGP in Service Provider Networks

Basic Implementation & Configuration

Explain and implement Frame-mode MPLS operations on Cisco IOS Platforms
Explain and implement Cell-mode MPLS operations on Cisco IOS Platforms
Explain and implement BGP Route Selection Using Policy Controls on Cisco IOS Platforms
Explain and implement BGP Route Selection Using BGP Attributes on Cisco IOS Platforms
Explain and implement Customer-to-Provider Connectivity with BGP on Cisco IOS Platforms
Explain and implement BGP Transit Autonomous System on Cisco IOS Platforms
Explain and implement IBGP connectivity using BGP Route Reflectors on Cisco IOS Platforms
Explain and implement BGP Confederations on Cisco IOS Platforms

Advanced Configuration

Explain and implement Advanced BGP Configuration on Cisco IOS Platforms
Explain and implement MPLS VPN operations on Cisco IOS Platforms
Explain and implement OSPF inside an MPLS VPN

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