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CCDP Design e-Camp

Prepare for the CCDP Design certification exam.

GK# 1586

Course Overview

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This course offers a complete solution to all the training you'll need to prepare for the CCDP certification exams. We provide in-depth coverage of Cisco topics covered in ARCH, ROUTE, and SWITCH.

In this course, you will learn the conceptual, intermediate, and detailed design of a network infrastructure that supports desired network solutions over intelligent network services, in order to achieve effective performance, scalability, and availability. You will learn how to apply Cisco network solution models and recommended design practices, to provide viable and stable enterprise internetworking solutions.

You will learn the concepts that are necessary to design converged enterprise networks. You will also cover enterprise campus, data center, e-commerce, IP addressing and routing, security solutions, VPNs, IP multicast, and security.

Gain the advanced routing skills you need to provide scalability for Cisco routers that are connected to LANs and WANs as part of a medium-to-large network site. You will learn how to dramatically increase the number of routers and sites using EIGRP and OSPF techniques, instead of redesigning the network when additional sites or configurations are added.

Finally, this course includes extensive hands-on labs to help you learn to plan, configure, and verify the implementation of complex enterprise switching solutions for campus environments using the Cisco Enterprise Campus Architecture. In order to gain a firm understanding of how to manage switches in an enterprise campus environment, you'll cover:

  • VLANs and WLANs
  • Spanning tree
  • InterVLAN routing
  • Security features

You will receive in your e-Camp:

12 months of access to the following self-paced courses: 

  • ARCH v2.1 Self-Paced e-Learning
  • ROUTE v2.0 Self-Paced e-Learning
  • SWITCH v2.0 Self-Paced e-Learning

12 months of access to the following resources:

  • Mentoring by Cisco experts via chat or email.
  • Task-based practice labs.
  • Printable, authorized Cisco study guides
  • Pre- and post-course assessments.
  • Certification exam practice tests.

What You'll Learn

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ARCH:

  • Cisco Network Architectures for the Enterprise and how this concept addresses enterprise network needs for performance, scalability, and availability
  • Cisco Network Architectures for the Enterprise used as a framework for designing enterprise networks
  • Enterprise campus network designs
  • Enterprise data center designs
  • Enterprise edge and remote infrastructure designs
  • Network service designs for security considerations
  • VPN designs

ROUTE:

  • Plan and document the configuration and verification of routing protocols and their optimization in enterprise networks
  • Technologies, components, and metrics of EIGRP used to implement and verify EIGRP routing in diverse, large-scale internetworks based on requirements
  • Identify, analyze, and match OSPF multiarea routing functions and benefits for routing efficiencies in network operations in order to implement and verify OSPF routing in a complex enterprise network
  • Implement and verify a redistribution solution in a multiprotocol network that uses Cisco IOS features to control path selection and provides a loop-free topology
  • Evaluate common network performance issues, and identify the tools needed to provide Layer 3 path control using Cisco IOS features
  • Implement and verify a Layer 3 solution using BGP to connect an enterprise network to a service provider

SWITCH:

  • Analyze campus network designs
  • Implement VLANs in a network campus
  • Implement spanning tree
  • Implement interVLAN routing in a campus network
  • Implement high-availability technologies and techniques using multilayer switches in a campus environment
  • Implement security features in a switched network
  • Integrate WLANs into a campus network
  • Accommodate voice and video in campus networks

Outline

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Viewing outline for:

Self-Paced Outline

ARCH v2.1 - Designing Cisco Network Service Architectures v2.1

1. Cisco Network Architectures for the Enterprise

  • Network Architectures for the Enterprise
  • Cisco PPDIOO Approach

2. Enterprise Campus Network Design

  • High Availability in the Enterprise Campus
  • Layer 2 Design Recommendations
  • Layer 3 Design Recommendations
  • Designing the Layer 2-to-Layer 3 Boundary
  • Enterprise Network Virtualization Technologies
  • Infrastructure Services Considerations

3. Advanced Addressing and Routing Design

  • Advanced Addressing Design
  • Advanced Routing Design
  • Scalable EIGRP Design
  • Scalable OSPF Design
  • Scalable BGP Design

4. Advanced WAN Services Design Considerations

  • Optical Technologies for WANs
  • Using Metro Ethernet, VPLS, and MPLS VPN Technologies
  • Advanced WAN Service Implementations

5. Enterprise Data Center Design

  • Core and Aggregation Layer Design
  • Access Layer Design
  • Scaling the Data Center Architecture
  • Spanning-Tree Sizing and High Availability

6. E-Commerce Module Design

  • Common Component Designs for the E-Commerce Module
  • Integrated e-Commerce Designs

7. SAN Design Considerations

  • SAN Components and Technologies
  • SAN and SAN Extension Design
  • Integrated Fabric Designs Using Cisco Nexus Technology

8. Security Services Design

  • Firewall Design Considerations
  • Network Admission Control Design
  • Intrusion Detection and Prevention Designs

9. IPsec and SSL VPN Design

  • Remote Access VPN Design
  • Site-to-Site VPN Design
  • IPsec VPN Technologies
  • VPN Management and Scaling

10. IP Multicast Design

  • IP Multicast
  • PIM and RP Considerations
  • IP Multicast Security

11. Network Management Capabilities with Cisco IOS Software

  • Embedded Management Capabilities
  • NetFlow Considerations
  • NBAR Considerations
  • IP SLA Considerations

ROUTE v2.0 - Implementing Cisco IP Routing v2.0

1. Basic Network and Routing Concepts

  • Differentiating Routing Protocols
  • Understanding Network Technologies
  • Connecting Remote Locations with the Headquarters
  • Implementing RIPng

2. EIGRP Implementation

  • Establishing EIGRP Neighbor Relationships
  • Building the EIGRP Topology Table
  • Optimizing EIGRP Behavior
  • Configuring EIGRP for IPv6
  • Discovering Named EIGRP Configuration

3. OSPF Implementation

  • Establishing OSPF Neighbor Relationship
  • Building the Link State Database
  • Optimizing OSPF Behavior
  • Configuring OSPFv3

4. Configuration of Redistribution

  • Implementing Basic Routing Protocol Redistribution
  • Manipulating Redistribution Using Route Filtering

5. Path Control Implementation

  • Using Cisco Express Forwarding Switching
  • Implementing Path Control

6. Enterprise Internet Connectivity

  • Planning Enterprise Internet Connectivity
  • Establishing Single-Homed IPv4 Internet Connectivity
  • Establishing Single-Homed IPv6 Internet Connectivity
  • Improving Resilience of Internet Connectivity
  • Considering Advantages of Using BGP
  • Implementing Basic BGP Operations
  • Using BGP Attributes and Path Selection Process
  • Controlling BGP Routing Updates
  • Implementing BGP for IPv6 Internet Connectivity

7. Routers and Routing Protocol Hardening

  • Securing Cisco Routers
  • Describing Routing Protocol Authentication Options
  • Configuring EIGRP Authentication
  • Configuring OSPF Authentication
  • Configuring BGP Authentication

SWITCH v2.0 - Implementing Cisco IP Switched Networks v2.0

1. Basic Concepts and Network Design

  • Analyzing Campus Network Structure
  • Comparing Layer 2 and Multilayer Switches
  • Using Cisco SDM Templates
  • Implementing LLDP
  • Implementing PoE

2. Campus Network Architecture

  • Implementing VLANs and Trunks
  • Introducing VTP
  • Implementing DHCP
  • Implementing DHCP for IPv6
  • Configuring Layer 2 Port Aggregation

3. Spanning Tree Implementation

  • Implementing RSTP
  • Implementing STP Stability Mechanisms
  • Implementing Multiple Spanning Tree Protocol

4. Configuring Inter-VLAN Routing

  • Implementing Inter-VLAN Routing Using a Router
  • Configuring a Switch to Route

5. Implementing High Availability Networks

  • Configuring Network Time Protocol
  • Implementing SNMP Version 3
  • Implementing IP SLA
  • Implementing Port Mirroring for Monitoring Support
  • Verifying Switch Virtualization

6. First Hop Redundancy Implementation

  • Configuring Layer 3 Redundancy with HSRP
  • Configuring Layer 3 Redundancy with VRRP
  • Configuring Layer 3 Redundancy with GLBP
  • Configuring First Hop Redundancy for IPv6

7. Campus Network Security

  • Implementing Port Security
  • Implementing Storm Control
  • Implementing Access to External Authentication
  • Mitigating Spoofing Attacks
  • Securing VLAN Trunks
  • Configuring Private VLANs

Supplemental Assets

Mentoring: Mentors are available to help you with your studies for the certification exams. You can reach them by entering a Mentored Chat Room or by using the Email My Mentor service.

Class Notes / Study Guides: Printable study guide and class notes are intended to support your transfer of knowledge and skills from courses to the workplace. Use these to follow along with instruction, review prior to certification exams, or to reference on the job.

Test Prep Exams: Practice tests will help you prepare for a certification exam. You can take a test prep exam in Study Mode (where you receive feedback after each question) or in Certification Mode (designed to mimic a certification exam) as many times as you want.

Lab Simulations: Task-based multipath scenarios provide realistic practice of technology subjects or applications.

Pre and Post Courseware Assessments: Section-based assessments offer a range of practice and testing options within the section, including feedback and tracking.

Prerequisites

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  • Good understanding of the underlying technical principles for advanced network designs
  • Familiarity with internetworking technologies, Cisco products, and Cisco IOS features
  • CCDA certification
  • Familiarity with internetworking technologies and the ability to perform basic router configuration
  • Experience installing, operating, and maintaining Cisco routers and switches in an enterprise environment
  • Knowledge of IP, including the ability to perform IP subnetting on non-octal boundaries, configure IP standard and extended access lists, operate and configure distance vector routing protocol, configure serial interface, and interpret a Cisco routing table

Who Should Attend

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  • Pre- and post-sales network engineers that are involved in network design, planning, and implementation
  • Network administrators and designers that are responsible for designing and implementing the enterprise network
  • CCDP and CCDE candidates

Follow-On Courses

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Course Delivery

This course is available in the following formats:

Self-Paced

On-demand content enables you to train on your own schedule.



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