CCDA and CCDP Certification

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This course is also available in a Remote Classroom Instruction format.

Includes roundtrip airfare and lodging (Georgia and Florida only) Hands-on instruction by a certified instructor Includes all course materials and practice exams Includes all certification exams Onsite Testing Breakfast and Lunch provided each day If airfare and lodging are not required, the price is $1,000 less for 2-week courses, $750 less for 10 day courses, and $500 less for one week courses.

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The CCDA certification (Cisco Certified Design Associate) indicates a foundation or apprentice knowledge of network design for the Cisco Internetwork Infrastructure. CCDA certified professionals can design routed and switched network infrastructures involving LAN, WAN, and dial access services for businesses and organizations.

• Designing for Cisco Internetwork Solutions (DESGN)

The CCDP (Cisco Certified Design Professional) certification indicates advanced or journeyman knowledge of network design. With a CCDP, a network professional can design routed and switched networks involving LAN, WAN, and dial access services, applying modular design practices and making sure the whole solution responds optimally to the business and technical needs and is designed to be highly available.

• Implementing Cisco IP Routing (ROUTE 642-902)
• Implementing Cisco IP Switched Networks (SWITCH 642-813)
• Designing Cisco Network Service Architecture (642-873 ARCH)

Cisco CCDA®

Designing for Cisco Internetwork Solutions (DESGN)

The Designing Cisco Internetworking exam is the only exam required to achieve a CCDA (Cisco Certified Design Associate) certification.

Course Outline:

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

Analysis

• Gather and evaluate information regarding an organization's existing social requirements
• Gather and evaluate information regarding a network owner's current data network and future needs
• Gather and evaluate information regarding a network owner's current voice network and future needs
• Identify possible opportunities for network improvement
• Validate gathered information
• Document relevant findings

Modeling

• Given a network design or set of requirements evaluate a solution that meets IP addressing needs
• Given a network design or a set of requirements evaluate a solution that meets routing protocol needs
• Given a network design or a set of requirements evaluate a solution that meets network management needs
• Given a network design or a set of requirements evaluate a solution to incorporate equipment and technology within a Campus design
• Given a network design or a set of requirements evaluate a solution to incorporate equipment and technology within an Enterprise Edge design
• Design solutions to meet network owner needs applying the Enterprise Composite Network Model
• Evaluate solutions addressing the issues of delivering voice traffic over a data network
• Evaluate solutions for compliance with SAFE architecture

Planning

• Develop an implementation plan
• Develop a prototype testing plan
• Develop a verification plan

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Cisco CCDP®

Implementing Cisco IP Routing (ROUTE 642-902)

The Implementing Cisco IP Routing (ROUTE 642-902) is a qualifying exam for the Cisco Certified Network Professional CCNP®, Cisco Certified Internetwork Professional CCIP®, and Cisco Certified Design Professional CCDP® certifications. The ROUTE 642-902 exam will certify that the successful candidate has the knowledge and skills necessary to use advanced IP addressing and routing in implementing scalable and secure Cisco ISR routers connected to LANs and WANs. The exam also covers configuration of secure routing solutions to support branch offices and mobile workers.

Exam Topics

The following information provides general guidelines for the content likely to be included on the exam.

Implement an EIGRP based solution, given a network design and a set of requirements

• Determine network resources needed for implementing EIGRP on a network
• Create an EIGRP implementation plan
• Create an EIGRP verification plan
• Configure EIGRP routing
• Verify EIGRP solution was implemented properly using show and debug commands
• Document results of EIGRP implementation and verification

Implement a multi-area OSPF Network, given a network design and a set of requirements

• Determine network resources needed for implementing OSPF on a network
• Create an OSPF implementation plan
• Create an OSPF verification plan
• Configure OSPF routing
• Verify OSPF solution was implemented properly using show and debug commands
• Document results of OSPF implementation and verification plan

Implement an eBGP based solution, given a network design and a set of requirements

• Determine network resources needed for implementing eBGP on a network
• Create an eBGP implementation plan
• Create an eBGP verification plan
• Configure eBGP routing
• Verify eBGP solution was implemented properly using show and debug commands
• Document results of eBGP implementation and verification plan

Implement an IPv6 based solution, given a network design and a set of requirements

• Determine network resources needed for implementing IPv6 on a network
• Create an IPv6 implementation plan
• Create an IPv6 verification plan
• Configure IPv6 routing
• Configure IPv6 interoperation with IPv4
• Verify IPv6 solution was implemented properly using show and debug commands
• Document results of IPv6 implementation and verification plan

Implement an IPv4 or IPv6 based redistribution solution, given a network design and a set of requirements

• Create a redistribution implementation plan based upon the results of the redistribution analysis
• Create a redistribution verification plan
• Configure a redistribution solution
• Verify that a redistribution was implemented
• Document results of a redistribution implementation and verification plan
• Identify the differences between implementing an IPv4 and IPv6 redistribution solution

Implement Layer 3 Path Control Solution

• Create a Layer 3 path control implementation plan based upon the results of the redistribution analysis
• Create a Layer 3 path control verification plan
• Configure Layer 3 path control
• Verify that a Layer 3 path control was implemented
• Document results of a Layer 3 path control implementation and verification plan
• Implement basic teleworker and branch services
• Describe broadband technologies
• Configure basic broadband connections
• Describe basic VPN technologies
• Configure GRE
• Describe branch access technologies

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Implementing Cisco IP Switched Networks (SWITCH 642-813)

Implementing Cisco IP Switched Networks (SWITCH 642-813) is a qualifying exam for the Cisco Certified Network Professional CCNP®, and Cisco Certified Design Professional CCDP® certifications. The SWITCH 642-813 exam will certify that the successful candidate has important knowledge and skills necessary to to plan, configure and verify the implementation of complex enterprise switching solutions using Cisco’s Campus Enterprise Architecture. The SWITCH exam also covers secure integration of VLANs, WLANs, voice and video into campus networks.

Exam Topics

The following information provides general guidelines for the content likely to be included on the exam.

Implement VLAN based solution, given a network design and a set of requirements

• Determine network resources needed for implementing a VLAN based solution on a network
• Create a VLAN based implementation plan
• Create a VLAN based verification plan
• Configure switch-to-switch connectivity for the VLAN based solution
• Configure loop prevention for the VLAN based solution
• Configure Access Ports for the VLAN based solution
• Verify the VLAN based solution was implemented properly using show and debug commands
• Document results of VLAN implementation and verification

Implement a Security Extension of a Layer 2 solution, given a network design and a set of requirements

• Determine network resources needed for implementing a Security solution
• Create a implementation plan for the Security solution
• Create a verification plan for the Security solution
• Configure port security features
• Configure general switch security features
• Configure private VLANs Configure VACL and PACL
• Verify the Security based solution was implemented properly using show and debug commands
• Document results of Security implementation and verification

Implement Switch based Layer 3 services, given a network design and a set of requirements

• Determine network resources needed for implementing a Switch based Layer 3 solution
• Create an implementation plan for the Switch based Layer 3 solution
• Create a verification plan for the Switch based Layer 3 solution
• Configure routing interfaces Configure Layer 3 Security
• Verify the Switch based Layer 3 solution was implemented properly using show and debug commands
• Document results of Switch based Layer 3 implementation and verification

Prepare infrastructure to support advanced services

• Implement a Wireless Extension of a Layer 2 solution
• Implement a VoIP support solution
• Implement video support solution

Implement High Availability, given a network design and a set of requirements

• Determine network resources needed for implementing High Availability on a network
• Create a High Availability implementation plan
• Create a High Availability verification plan
• Implement first hop redundancy protocols
• Implement switch supervisor redundancy
• Verify High Availability solution was implemented properly using show and debug commands
• Document results of High Availability implementation and verification

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Designing Cisco Network Service Architecture (642-873 ARCH)

The 642-873 Designing Cisco Network Service Architectures (ARCH) exam is the exam associated with the CCDP certification. This exam tests a candidate's knowledge of the latest development in network design and technologies, including network infrastructure, intelligent network services and converged network solutions.

Course Objectives:

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

Design advanced core enterprise networks

• Design campus Infrastructure using best practices
• Design a High Availability enterprise network
• Design a high availability WAN
• Design network management services
• Design IP multicast services
• Describe enterprise VoWLAN design considerations

Design an enterprise data center

• Design a high availability data center network that is modular, flexible and meets standards
• Describe the components and technologies of a SAN network
• Design an effective E-Commerce module

Design security services

• Utilize firewalls
• Utilize the NAC appliance
• Utilize IPsec VPNs

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*Cisco Credits can not be used for travel or expense costs.

CCDA, CCDP, CCIE, CCIP, CCNA, CCNP, Cisco, Cisco IOS, Cisco Systems, the Cisco Systems logo, and Networking Academy are registered trademarks or trademarks of Cisco Systems® and/or its affiliates in the U.S. and certain other countries. All other trademarks mentioned in this web site are the property of their respective owners.

CED Solutions is sponsored by Element K, a Cisco Learning (Solutions) Partner
Institute of Professional Learning is sponsored by Element K, a Cisco Learning (Solutions) Partner

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