1 / 28

Year 2 - Chapter 10/Cisco 4 - Module 3 WAN Design

Year 2 - Chapter 10/Cisco 4 - Module 3 WAN Design. WAN Options. WAN Design Requirements. Optimize WAN Bandwidth Minimize Costs Maximize the Effective Service to the End Users. Pressures on Existing Networks. Increased use of client/server and multimedia applications.

larryrodriquez
Download Presentation

Year 2 - Chapter 10/Cisco 4 - Module 3 WAN Design

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Year 2 - Chapter 10/Cisco 4 - Module 3WAN Design Cisco Press: CCNA Instructor’s Manual

  2. WAN Options Cisco Press: CCNA Instructor’s Manual

  3. WAN Design Requirements • Optimize WAN Bandwidth • Minimize Costs • Maximize the Effective Service to the End Users Cisco Press: CCNA Instructor’s Manual

  4. Pressures on Existing Networks • Increased use of client/server and multimedia applications. • Increased use of enterprise servers. • Applications increasingly require distinct network qualities of service. • Increased network connections for remote users, mobile users, international sites, customers/suppliers, and the Internet. • Growth of corporate intranets and extranets. • Internet and "push" technologies. Cisco Press: CCNA Instructor’s Manual

  5. WAN Design Goals • Application availability • If the applications are not available to network users, the network is not doing its job. • Total cost of ownership • To properly implement the WAN infrastructure to optimize application availability and allow the cost-effective use of existing network resources. Cisco Press: CCNA Instructor’s Manual

  6. Secondary Design Goals • Functionality Does the network work? Can the users do their job? The network must provide acceptable and reliable connectivity to the organizational resources that user needs. • Manageability Can the network be monitored and managed conveniently and efficiently by network professionals? If routine monitoring and maintenance is not convenient, it tends to be skipped. • Scalability Can the network expand and contract with changes within the organization? The original design should be able to adjust without having to be redesigned. Cisco Press: CCNA Instructor’s Manual

  7. Steps in Designing a WAN • Gathering Requirements • Analyzing Requirements • Sensitivity Testing Cisco Press: CCNA Instructor’s Manual

  8. Types of Requirements • Business requirements • Organizational requirements • Technical requirements • Performance requirements • Application requirements • Network management requirements • Security requirements Cisco Press: CCNA Instructor’s Manual

  9. Business Requirements • Looks only at the organization’s business model • Does the design benefit or hinder their way of doing business? • Does the design provide a competitive advantage? • If so, which costs are reduced and by how much? • Is the organization an industry leader or industry follower? • Does the design scale consistent with the organization’s expected growth? Cisco Press: CCNA Instructor’s Manual

  10. Organization Requirements • Who has bought into this project? • Is it supported high enough in the organization to make sure that resources and attention will be committed? • Is there an existing budget? • Is it reasonable for what needs to be done? • Who must approve any changes or budget increases? • Is there an existing timeline for the project? • Is the timeline reasonable? Cisco Press: CCNA Instructor’s Manual

  11. Technical Requirements • Performance Requirements • Application Requirements • Network Management Requirements • Security Requirements Cisco Press: CCNA Instructor’s Manual

  12. Performance Requirements • Defining Acceptable levels of performance measured in: • Response Time • Bandwidth utilization • How to ensure that those levels can be preserved through both network growth and increased utilization. Cisco Press: CCNA Instructor’s Manual

  13. Application Requirements • Which centralized applications are currently used on the network? • Who needs access to these applications and where are they located? • What new applications are being added in the new design? • What are peak loads? • Per day, per week, per month, per year? • Can any high bandwidth applications be rescheduled to run outside of normal business hours? Cisco Press: CCNA Instructor’s Manual

  14. Network Management Requirements • How much traffic to capture • How much statistics to gather • Where to measure network utilization • Remote configuration Cisco Press: CCNA Instructor’s Manual

  15. Security Requirements • How is network security currently handled? • Does the organization understand the need for security? • Will there be additional exposure as a result of the new design? • How will the additional security and related training be handled? • Defining the level of security that the customer could realistically pay for and live with. Cisco Press: CCNA Instructor’s Manual

  16. Methods to Obtain This Information • To determine user community profiles • What different user groups require • Interviews • Least formal approach • Focus groups • Surveys • Gathering statistically valid input • Human factors tests (lab environment) • Most expensive, time-consuming, and possibly revealing method Cisco Press: CCNA Instructor’s Manual

  17. Analyzing Requirements • How can the new design meet each of the following: • Business requirements • Organizational requirements • Technical requirements • Performance requirements • Application requirements • Network management requirements • Security requirements Cisco Press: CCNA Instructor’s Manual

  18. WAN Sensitivity Testing • Pilot—Small-scale test network (lab) • Generally proving the technology works • Often includes borrowed resources • Prototype—Larger scale test network • Proves all aspects of the entire design • Purchasing enough resources to outfit a test branch or test location (one classroom in a school upgrade) • Computer design modeling programs • Cisco’s Netsys Baseliner, a simulation-based planning and problem-solving tool for network managers, analysts, and designers Cisco Press: CCNA Instructor’s Manual

  19. Three-Layer Hierarchical Model Cisco Press: CCNA Instructor’s Manual

  20. Benefits of a Hierarchical WAN Design • Scalability • Ease of Implementation • Ease of Troubleshooting • Predictability • Protocol Support • Manageability Cisco Press: CCNA Instructor’s Manual

  21. Functions of Hierarchical Layers • Core layer • Provides optimal transport between sites • Distribution layer • Provides policy-based connectivity • Access layer • Provides workgroup and user access to the network Cisco Press: CCNA Instructor’s Manual

  22. Core-Layer Functions • If there is a failure in core every single user can be affected. • Speed and latency are driving concerns here. • Things that we know we do not want to do: • Do not do anything to slow down traffic (VLANs, ACLs, Packet Filtering) • Do not support workgroup access here • Avoid expanding the core when the internet work grows: Give preference to upgrade over expansion. Cisco Press: CCNA Instructor’s Manual

  23. Core-Layer Functions • Things we know we want to do: • Design the core for high reliability • Consider data link technologies that facilitate both speed and redundancy (ATM, FDDI) • Design with speed in mind. The core should have very little latency. • Select routing protocol with lower convergence time (OSPF) Cisco Press: CCNA Instructor’s Manual

  24. Distribution Layer • The distribution layer is where much of the action is • The emphasis here is control. • Items that should be done at the distribution layer: • Implement tools such as access lists, packet filtering, and queuing. • Implement security, and network policies, including address translation and firewalls. • Redistribution between routing protocols • Routing between VLANs. Cisco Press: CCNA Instructor’s Manual

  25. Access Layer • Controls user and workgroup access to internetwork resources. • Some of the functions to be included at this layer include: • Continued (from distribution layer) access control and policies. • Creation of separate collision domains • Workgroup connectivity into distribution layer. Cisco Press: CCNA Instructor’s Manual

  26. Three categories of customer Problems • Media Problems: Problem relating to contention for use of the media itself. Examples include collision rates and utilization rates. • The recommended solution is to use LAN switching to separate collision domains. • Protocol Problems: Protocol problems result when protocols designed for workgroup environment are used in significantly larger environment. • The recommended solution is to use routing to separate broadcast domains. • Transport Problems: Result when extreme transport problems are placed on the network. For example many IS departments are required to implement video conferencing and video streaming solutions. • Using ATM solves transport problems. Cisco Press: CCNA Instructor’s Manual

  27. Connectivity in a Three-Layer Model Cisco Press: CCNA Instructor’s Manual

  28. Server Placement Cisco Press: CCNA Instructor’s Manual

More Related