CID Training

The CCDP Certification consists of Four Courses

• CID Cisco Internetwork Design
• BCMSN Building Cisco Multilayer Switched Networks
• BSCI Building Scalable Cisco Internetworks Curriculum
• BCRAN Building Cisco Remote Access Networks Curriculum

Developed in Association with Cisco Systems®

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Cisco CCDP ™ Certification Exam CID Training (CD-ROM)
Cisco Internetwork Design

Cisco™ Internetwork Design Curriculum (CID) on CD-ROM Training with book Exam 640-025  Details	ng20351	$645.00
Building Cisco™ Multilayer Switched Networks (BCMSN) on CD-ROM Training with book Exam 640-604/642-811 Details	ng20321	$645.00
Building Scalable Cisco™ Internetworks Curriculum (BSCI) on CD-ROM Training with book Exam 640-901/642-801 Details	ng20411	$645.00
Building Cisco™ Remote Access Networks Curriculum (BCRAN) on CD-ROM with book Exam 640-605/642-821   Details	ng20331	$645.00
Complete CCDP CBT Training on CD Covers all four Exams with CCNP/DP Library demo	n20352d	$1100.00

CCDP Cisco Internetwork Design (CID) contains the complete training course material listed below.

• Part 1: Internetwork and LAN Design
• Part 2: TCP/IP Network Design
• Part 3: Desktop Protocol Design

Cisco Internetwork Design Part 1: Internetwork and LAN Design

The first course in the Cisco Internetwork Design series provides a review of key internetworking technology information. It also covers Campus LAN Design. In particular it  defines the design, technical and business considerations that you must consider before deploying a Campus LAN Design. It also introduces Campus LAN Technologies and covers Campus LAN Design Models

Course Overview:

• Identify the guidelines for designing an internetwork topology.
• Identify the guidelines for implementing an internetwork design methodology.
• Identify the benefits of using a hierarchical design model.
• Identify the technical considerations in campus local area network (LAN) design.
• Identify the hardware and software end-station issues that affect a campus LAN design.
• Identify the server end-station issues that affect a campus LAN design.
• Identify the features of Ethernet technology as it operates in campus LAN design.
• Identify the functions of Token Ring and Fiber-Distributed Data Interface (FDDI) technologies.
• Identify the features and functions of Asynchronous Transfer Mode (ATM) networks

The audience for this curriculum will be System Administrators, Network Administrators or Network Designers involved in administering a Cisco System or designing a Cisco Network System.

Cisco Internetwork Design Part 2: TCP/IP Network Design

Course Overview

The second course in the Cisco Internetwork Design series covers IP Addressing. It focuses on routing protocols and considerations as well as security considerations that you will need to consider with a TCP/IP network. It also covers the various addressing choices you have when designing a TCP/IP network and how to manage your IP addressing options. It also covers multicast addressing considerations and TCP/IP security. It also describes basic routing concepts and the different types of routing protocols. It also explains aggregation, convergence and route distribution. Finally, it focuses on ICP. Link-state protocol, and OSPF.

• Identify the physical and logical components of a TCP/IP network design.
• Identify the guidelines for efficient use of IP addresses and subnet masks.
• Identify the considerations that affect the selection of network routing protocols.
• Identify the steps involved in switching packets through a router.
• Identify the types of routing and switching processes available on Cisco platforms.
• Identify the principal categories of Internet Protocol (IP) routing protocols.
• Identify the features of Open Shortest Path First (OSPF) network and router types.
• Identify the features and functions of OSPF link-state advertisements (LSAs).
• Identify the features and functions of designated routers.
• Identify the characteristics of the Interior Gateway Routing Protocol (IGRP).
• Identify the features of IGRP routing and load balancing techniques.
• Identify the steps involved in Interior Gateway Routing Protocol (IGRP) convergence.

Cisco Internetwork Design Part 3: Desktop Protocol Design

Course Overview

The third course in the Cisco Internetwork Design series focuses on the fundamentals of desktop protocols. Including IPX, AppleTalk and Microsoft Windows. It covers the client/server models and broadcast technologies as they apply to these three common desktop protocols. It also covers the protocols, encapsulations, routing specifics and configuration considerations indigenous to IPX networks It also covers RIP and SAP issues that you might encounter in an IPX network. It also covers the business and technical requirements for an AppleTalk network, as well as the protocols, routing, and administrative choice issues that come with planning an AppleTalk network design. Finally, it focuses on general Windows Networking concepts, specifically the mechanics, components and transport protocols associated with NetBIOS. It also covers name resolution.

• Identify the effects of using broadcast service advertisements in IPX networks.
• Identify the features of the Novell NetWare protocol stack.
• Identify the encapsulations for routing IPX over Ethernet, Token Ring, and FDDI networks.
• Identify the issues to consider when using broadcasts in an AppleTalk environment.
• Identify the features that characterize the development of the AppleTalk protocol suite.
• Identify the features and functions of AppleTalk routing protocols.
• Identify the features of Windows-based internetworks.
• Identify the features of NetBIOS and its three transport protocols.
• Identify the operational features of the LAN Services Browser.

Course Overview

The fourth course in the Cisco Internetwork Design series covers basic WAN design issues as well as how to optimize core WAN availability and performance. It also covers WAN backbone routing protocol choices. It also provides an overview of leased lines and serial line encapsulation. It provides a general overview of Frame Relay networks as well as router interaction, NBMA and subinterfaces in Frame Relay networks. It also covers X.25 design issues. It also focuses on X.25 switching. Finally, it covers Remote Access design. It covers using remote access through analog and ISDN, the different types of remote access methods, the equipment at both central and remote sites needed to deploy remote access.

• Identify the design issues that affect wide area network (WAN) performance.
• Identify the features of a single-protocol IP backbone.
• Identify the components required for leased line connections.
• Identify the business and technology issues that affect remote access networks.
• Identify the features of traditional analog dial-up connections.
• Identify the features and functions of traditional Integrated Services Digital Networks (ISDN) connections.

CBT Demonstration Demo

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