Introduction\r\n\r\nOBJECTIVE 1:Demonstrate an understanding of the steps for designing \r\n internetwork solutions\r\nOBJECTIVE 2:Analyze a client’s business and technical requirements\r\n and select appropriate internetwork technologies and \r\n topologies\r\nOBJECTIVE 3:Construct an internetwork design that meets a client’s \r\n objectives for internetwork performance,functionality,\r\n and cost\r\nOBJECTIVE 4:Define the goals of internetwork design\r\nOBJECTIVE 5:Define the issues facing designers\r\nOBJECTIVE 6:List resources for further information\r\nOBJECTIVE 7:Identify the origin of design models used in the course\r\nOBJECTIVE 8:Define the hierarchical model\r\nOBJECTIVE 9:List common reasons that customers invest in a campus \r\n LAN design project\r\nOBJECTIVE 10:Examine statements made by a client and distinguish \r\n the relevant issues that will affect the choice of \r\n campus LAN design solutions\r\nOBJECTIVE 11:Define switches,virtual LANs,and LAN emulation\r\nOBJECTIVE 12:Examine a client’s requirements and construct an \r\n appropriate switched campus LAN solution\r\nOBJECTIVE 13:Define routing functions and benefits\r\nOBJECTIVE 14:Examine a client’srequirements and construct an \r\n appropriate campus LAN design solution\r\nOBJECTIVE 15:Examine a client’srequirements and construct an \r\n appropriate ATM design solution\r\nOBJECTIVE 16:Construct designs using ATM technology for \r\n high-performance workgroups and high-performance\r\n backbones\r\nOBJECTIVE 17:Upgrade internetwork designs as the role of ATM \r\n evolves\r\nOBJECTIVE 18:Choose the appropriate IP addressing scheme based \r\n on technical requirements\r\nOBJECTIVE 19:Identify IP addressing issues and how to work around\r\n them\r\nOBJECTIVE 20:Choose the appropriate IP routing protocol and features\r\n based on convergence,overhead,and topology\r\nOBJECTIVE 21:Identify IP routing pathologies and issues and how to \r\n avoid them\r\nOBJECTIVE 22:Use modular design and summarization features to design\r\n scalable Open Shortest Path First(OSPF)internetworks\r\nOBJECTIVE 23:Allocate IP addresses in contiguous blocks so that OSPF\r\n summarization can be used\r\nOBJECTIVE 24:Determine IGRP convergence time for various internetwork\r\n configurations\r\nOBJECTIVE 25:Use IGRP for path determination in IP internetworks\r\nOBJECTIVE 26:Use Enhanced IGRP for path determination in internetworks\r\n that support IP,IPX,and AppleTalk\r\nOBJECTIVE 27:Exmine a client’s requirements and construct an \r\n appropriate AppleTalk design solution\r\nOBJECTIVE 28:Choose addressing and naming conventions to build \r\n manageable and scalable AppleTalk internetworks\r\nOBJECTIVE 29:Use Cisco IOS? features to design scalable AppleTalk\r\n internetworks\r\nOBJECTIVE 30:Examine a Client’s requirements and construct an \r\n appropriate IPX design solution\r\nOBJECTIVE 31:Choose the appropriate routing protocol for an IPX\r\n internetwork\r\nOBJECTIVE 32:Design scalable and manageable IPX internetworks by\r\n controlling RIP and SAP traffic\r\nOBJECTIVE 33:Examine a Client’s requirements and construct an \r\n appropriate NetBIOS design solution\r\nOBJECTIVE 34:Design a source-route-bridged internetwork that provides \r\n connectivity for NetBIOS applications and controls \r\n NetBIOS explorer traffic\r\nOBJECTIVE 35:List common concerns that customers have about WAN \r\n designs\r\nOBJECTIVE 36:Examine statements made by a customer and distinguish \r\n issues that affect the choice of WAN designs\r\nOBJECTIVE 37:Design core WAN connectivity to maximize availability\r\n and optimize utilization of resources\r\nOBJECTIVE 38:Design a full or partial mesh Frame Relay non-broadcast\r\n multi-access(NBMA)core for full or partial connectivity\r\nOBJECTIVE 39:Choose a scalable topology for NBMA Frame Relay\r\nOBJECTIVE 40:Use Subinterface Frame Relay configurations to design \r\n robust core WANs\r\nOBJECTIVE 41:Design scalable internetwork WAN non-broadcast multi-access\r\n X.25\r\nOBJECTIVE 42:Design scalable,robust internetwork WANs with an X.25 \r\n subinterface configuration\r\nOBJECTIVE 43:Use X.25 switching to provide X.25 service over an integrated \r\n IP backbone\r\nOBJECTIVE 44:Explain ISDN services\r\nOBJECTIVE 45:Examine a customer’s requirements and recommend appropriate\r\n ISDN solutions\r\nOBJECTIVE 46:Construct an ISDN design that conserves bandwidth and is \r\n cost-effective\r\nOBJECTIVE 47:Examine a Client’s requirements and recommend appropriate \r\n point-to-point and asynchronous WAN solutions\r\nOBJECTIVE 48:Choose appropriate link encapsulation for point-to-point \r\n circuits\r\nOBJECTIVE 49:Discuss the hierarchical and connection-oriented nature of \r\n SNA\r\nOBJECTIVE 50:Describe the use of gateways to attach Token Ring devices to\r\n an SNA network\r\nOBJECTIVE 51:Explain how LLC2 and SDLC sessions are established\r\nOBJECTIVE 52:Describe reasons for integrating SNA technology with\r\n internetworking technology\r\nOBJECTIVE 53:Examine a Client’s requirements and recommend SNA \r\n internetworking solutions\r\nOBJECTIVE 54:Construct SNA designs that replace legacy communications \r\n equipment with multiprotocol routers\r\nOBJECTIVE 55:Build redundancy into SNA internetworks\r\nOBJECTIVE 56:Design remote source-route bridged SNA internetworks in \r\n full and partial mesh configurations\r\nOBJECTIVE 57:Choose the appropriate place to do priority queuing or \r\n custom queuing for SNA\r\nOBJECTIVE 58:Examine a Client’s security requirements and recommend \r\n firewalls and gateways\r\nOBJECTIVE 59:Design a firewall system using packet-filtered routers and \r\n bastion hosts\r\nOBJECTIVE 60:Choose protocols to be filtered on routers in the firewall\r\nOBJECTIVE 61:Summarize the major concepts covered in this class\r\nOBJECTIVE 62:Recall the steps for internetwork design\r\nOBJECTIVE 63:Describe methods for monitoring your internetwork design\r\nOBJECTIVE 64:Return to your environment with fresh ideas and plans for \r\n interentwork designs
第二书店&China-pub战略联盟提供专业服务
第二书店联系方式 010-64348411 webmaster@dearbook.com