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Advanced Cisco Router Configuration - Part 1
Course ID: 20311
Version 10
Last maintained August 19, 1999
For Product Support Information: See README
Course Overview
This is the first course in a five-part series on Advanced Cisco Router Configuration (ACRC 11.3). This series will teach users to configure Cisco routers for operation in large or growing multiprotocol internetworks. The focus is on scalable technologies and the Cisco IOS software features that are most useful in building those internetworks. This course will help participants learn how to define scalable internetworks, manage traffic and access, manage IP traffic, manage Novell IPX/SPX traffic, and the three queuing techniques Cisco supports.
Learn To:
Identify the key requirements of a scalable internetwork.
Select a Cisco I0S feature as a solution for a given internetwork requirement.
Identify the causes of network congestion and provide solutions for its control.
Use and place both standard and extended access lists as well as alternative methods to control IP traffic in the network.
Perform the configuration tasks necessary to deal with congestion in an IPX network.
Perform the three queuing techniques which Cisco supports.
Content Emphasis
Skills-Based
Audience
Network administrators, network designers, network specialists, and network technicians who specialize in configuring and supporting multiprotocol internetworks. Before taking this series, students should have CCNA certification and implemented at least three Cisco routers into a network and configured and verified the operation of IP RIP, IPX RIP, Apple Talk, PPP over any link type, and ISDN. This course will help candidates prepare for Cisco Certified Network Professional (CCNP) exam 640-403.
Total Learning Time
6 - 8 Hour(s)
Course Contents
Unit 1: Defining Scalable Internetworks
Duration: 1 - 2 Hour(s)
Match the layers of scalable internetworks with their functions.
Identify the Cisco IOS features that make the network reliable and available.
Identify the Cisco IOS features that make the network more responsive.
Identify the Cisco IOS features that make the network more efficient.
Identify the Cisco IOS features that make the network more adaptable.
Identify the Cisco IOS features that make the network accessible but secure.
Unit 2: Managing Traffic and Access
Duration: 1 - 2 Hour(s)
Identify the reasons congestion occurs.
Identify sources of traffic found in an IP network.
Identify sources of IPX traffic congestion.
Identify sources of congestion in a multiprotocol network.
Identify ways to manage network congestion.
Unit 3: Managing IP Traffic
Duration: 2 Hour(s)
Identify the types of IP traffic management.
Match types of access lists with the ranges of IP access.
Identify uses of access lists other than IP address management.
Identify the differences between inbound and outbound access list processings.
Match IP address concepts with their descriptions.
Identify a wildcard mask based on the network address.
Perform the steps to set up a standard access list to an interface.
Identify the proper use of an implicit mask in a standard access list.
Identify the guidelines for configuring standard access lists.
Perform the steps to configure an IP standard access list.
Perform the steps to set up a virtual terminal (Telnet) session with a router.
Perform the steps to restrict access to a router.
Identify the bases of IP extended access lists for permitting or denying packets.
Identify the extended access list command.
Perform the steps to configure an IP access list for managing Internet Control Message Protocol (ICMP) traffic.
Perform the steps to configure an access list for managing TCP traffic.
Perform the steps to configure an access list for managing UDP traffic.
Identify the guidelines for extended access list placement.
Perform the steps to configure an IP extended access list for restricting access to a router.
Demonstrate the procedure for verifying access lists operation.
Identify the situations to configure a null interface as an alternative to using an access list.
Demonstrate the use of the command for configuring a null interface.
Identify the situations to use helper addresses.
Perform the steps to configure a helper address for a single server on a remote medium.
Perform the steps to configure a helper address for multiple servers on a remote medium.
Perform the steps to configure a helper address for multiple servers on remote media.
Unit 4: Managing Novell IPX/SPX Traffic
Duration: 2 Hour(s)
Match the components of the Novell IPX/SPX protocol with their descriptions.
Select the components of an IPX address.
Identify the methods to manage IPX internetworking with the features of Cisco IOS-based routers.
Differentiate the command lines between standard and extended IPX access lists.
Identify how Service Advertising Protocol (SAP) broadcasts work on a WAN network.
Perform the steps to configure a SAP filter.
Perform the steps to control RIP traffic.
Identify the commands to configure the way a router responds to GNS broadcasts.
Perform the steps to control which servers are included in GNS responses.
Perform the steps to statically add server services to the SAP table.
Perform the steps to configure the frequency of SAP updates on a network.
Identify the primary components of an IP tunnel interface.
Perform the steps to set up an IP tunnel.
Demonstrate the use of the command for displaying the status of IPX interfaces.
Demonstrate the use of the command for listing the entries of the IPX routing table.
Demonstrate the use of the command for listing the servers discovered through SAP advertisements.
Demonstrate the use of the command for displaying IPX packet information.
Advanced Cisco Router Configuration - Part 2
Course ID: 20312
Version 10
Last maintained September 23, 1999
For Product Support Information: See README
Course Overview
This is the second course in a five-part series on Advanced Cisco Router Configuration (ACRC 11.3). This series will teach users to configure Cisco routers for operation in large or growing multiprotocol internetworks. The focus is on scalable technologies and the Cisco IOS software features that are most useful in building those internetworks. This course will help participants learn routing basics, extending IP addresses using Variable Length Subnet Masks (VLSMs), and how to use, operate configure and verify Open Shortest Path First (OSPF).
Learn To:
Define the fundamentals of types of routing protocols.
Explain route summarization, private addresses and Network Address Translation (NAT).
Use, operate, configure and verify Open Shortest Path First (OSPF).
Content Emphasis
Skills-Based
Audience
Network administrators, network designers, network specialists, and network technicians who specialize in configuring and supporting multiprotocol internetworks. Before taking this series, students should have CCNA certification and implemented at least three Cisco routers into a network and configured and verified the operation of IP RIP, IPX RIP, Apple Talk, PPP over any link type, and ISDN. In addition, participants should have taken the first part of this series (course 20311). This course will help candidates prepare for Cisco Certified Network Professional (CCNP) exam 640-403.
Total Learning Time
6 - 8 Hour(s)
Course Contents
Unit 1: Routing Basics
Duration: 2 - 3 Hour(s)
Identify the definition of routing.
Write the address of a leaf in a hierarchical addressing tree.
Identify ways the distance vector and link-state protocols identify neighbors.
Identify ways that distance vector and link-state protocols discover routes.
Identify ways that distance vector and link-state protocols select the best path to a destination.
Unit 2: Extending IP Addresses using VLSMs
Duration: 2 - 3 Hour(s)
Convert numbers from binary to decimal and vice versa.
Match IP address ranges with their class designations.
Select the reason for using subnet masks.
Calculate a subnet mask.
Calculate the networks for a subnet mask in binary form.
Write a subnet mask in prefix form.
Identify reasons IP addressing is an issue.
Identify benefits of IP addressing.
Identify other IP addressing solutions besides hierarchical addressing.
Identify benefits of VLSMs in an IP addressing scheme.
Identify routing protocols that can handle classless updates of routing information.
Calculate the future-subnetted network addresses.
Identify advantages of route summarization.
Summarize IP addresses within one octet.
Summarize addresses in a VLSM network.
Identify network requirements prior to summarization.
Identify ways that Cisco routers manage route summarization.
Identify routing protocols that can be configured to advertise subnets.
Identify three different address ranges that comprise the private addressing space.
Identify key issues to be considered prior to implementing private addresses.
Identify characteristics of a Network Address Translation (NAT).
Sequence the steps a NAT uses to translate inside local addresses.
Match the OSPF/link-state terms with their descriptions.
Unit 3: OSPF in a Single Area
Duration: 2 Hour(s)
Match OSPF/link-state terms with their descriptions.
Sequence the steps a router uses to discover its neighbors.
Sequence the steps a router uses to elect its DR/BDRs.
Sequence the steps a router uses to discover its routes.
Identify differences between the distance vector and link-state protocol types in determining the best path to a destination.
Sequence the steps a router uses to maintain the latest information about the internetwork.
Match the type of neighbor relationship with its description.
Configure OSPF on internal routers.
Perform the steps to modify OSPF behavior.
Perform the steps to verify OSPF operation.
Perform the steps to clear an IP routing table.
Advanced Cisco Router Configuration - Part 3
Course ID: 20313
Version 10
Last maintained September 3, 1999
For Product Support Information: See README
Course Overview
This is the third course in a five-part series on Advanced Cisco Router Configuration (ACRC 11.3). This series will teach users to configure Cisco routers for operation in large or growing multiprotocol internetworks. The focus is on scalable technologies and the Cisco IOS software features that are most useful in building those internetworks. This course will help participants learn how to interconnect multiple Open Shortest Path First (OSPF) areas, Enhanced Interior Gateway Routing Protocol (EIGRP) operation and configuration, optimizing routing update operation, and connecting enterprises to an Internet Service Provider (ISP).
Learn To:
Use, operate, configure and verify multiple Open Shortest Path First (OSPF) areas.
Operate and configure Enhanced Interior Gateway Protocol (EIGRP).
Configure routers to utilize the more commonly used capabilities for controlling when and how routers receive and send routing updates.
Connect enterprises to an Internet Service Provider (ISP) using Border Gateway Protocol (BGP).
Content Emphasis
Skills-Based
Audience
Network administrators, network designers, network specialists, and network technicians who specialize in configuring and supporting multiprotocol internetworks. Before taking this series, students should have CCNA certification and implemented at least three Cisco routers into a network and configured and verified the operation of IP RIP, IPX RIP, Apple Talk, PPP over any link type, and ISDN. In addition, participants should have taken the first two parts of this series (course 20311-12). This course will help candidates prepare for Cisco Certified Network Professional (CCNP) exam 640-403.
Total Learning Time
6 - 8 Hour(s)
Course Contents
Unit 1: Interconnecting Multiple OSPF Areas
Duration: 1 - 2 Hour(s)
Identify issues common to maintaining a large single-area OSPF network.
Identify advantages of a hierarchical routing topology.
Identify OSPF multiarea components.
Match OSPF router types with their descriptions.
Match types of link-state advertisements that can be included in a link-state update with their descriptions.
Match types of areas used in OSPF with their characteristics.
Identify the preferred cost for each type of link-state advertisement.
Sequence the steps of the path a packet takes to a network outside the area.
Sequence the steps for flooding link-state updates to multiple areas.
Sequence the steps routers take to recalculate their routing tables.
Configure an OSPF area border router or autonomous system boundary router.
Identify the advantages of using route summarization.
Configure route summarization on an area border router.
Configure route summarization on an autonomous system boundary router.
Distinguish between stub and totally stubby areas.
Identify restrictions used to designate stub and totally stubby areas.
Configure an area as stub or totally stubby.
Match commands to verify OSPF operation with their definitions.
Identify backbone area requirements for configuring multiple areas.
Configure a virtual link on an area border router.
Sequence the steps a router uses when updating its Not-So-Stubby Areas (NSSA) routing table.
Configure NSSA on an ABR.
Unit 2: EIGRP Operation and Configuration
Duration: 1 - 2 Hour(s)
Identify advantages of EIGRP.
Identify advantages of EIGRP designed to facilitate the building of robust Novell IPX networks.
Identify EIGRP features that make AppleTalk networks more efficient.
Match terms used in EIGRP with their definitions.
Match the key elements of a neighbor table with their definitions.
Sequence the steps of the process used by routers to learn about routers to destinations in the network.
Identify key characteristics of EIGRP route selection.
Sequence the steps EIGRP uses to determine which routes to keep in the topology and route tables.
Sequence the steps used by routers to maintain routes.
Configure EIGRP for IP.
Configure EIGRP support for IPX.
Configure EIGRP for IPX Service Advertising Protocol (SAP) updates.
Perform the steps to summarize EIGRP routes.
Match show commands used to verify EIGRP operation with their definitions.
Match show commands used to verify EIGRP for IPX operation with their definitions.
Unit 3: Optimizing Routing Update Operation
Duration: 2 Hour(s)
Match ways to control or prevent routing update exchange and propagation with their descriptions.
Configure passive-interface.
Configure default routers to destinations not appearing in a routing table.
Configure a static route for IP.
Sequence the steps used by routers to filter incoming and outgoing routing updates.
Configure a route filter.
Identify the need for multiple routing protocols.
Sequence the steps routers use to select the best path when they learn more than one path to the same destination from different protocols.
Identify implementation guidelines when using redistribution.
Identify considerations when redistributing EIGRP.
Configure the core or backbone redistribution protocol.
Configure the router to redistribute routing updates.
Complete the steps to modify administrative distance.
Complete the steps to verify redistribution operation.
Unit 4: Connecting Enterprises to an ISP
Duration: 2 Hour(s)
Identify circumstances for configuring Border Gateway Protocol (BGP).
Identify ways an enterprise network can connect to an Internet service provider.
Match BGP commands with their definitions.
Match BGP show commands with their definitions.
Advanced Cisco Router Configuration - Part 5
Course ID: 20315
Version 10
Last maintained August 25, 1999
For Product Support Information: See README
Course Overview
This is the last course in a five-part series on Advanced Cisco Router Configuration (ACRC 11.3). This series will teach users to configure Cisco routers for operation in large or growing multiprotocol internetworks. The focus is on scalable technologies and the Cisco IOS software features that are most useful in building those internetworks. This course will give participants an overview of bridging, configuring routing and bridging, and configuring source-route bridging.
Learn To:
Identify the types of bridging and the protocols used in bridging on an internetwork.
Identify the procedures used to configure transparent bridging and Integrated Routing and Bridging.
Perform the procedures used to configure source-route, source-route transparent, and source-route translational bridging.
Content Emphasis
Skills-Based
Audience
Network administrators, network designers, network specialists, and network technicians who specialize in configuring and supporting multiprotocol internetworks. Before taking this series, students should have CCNA certification and implemented at least three Cisco routers into a network and configured and verified the operation of IP RIP, IPX RIP, Apple Talk, PPP over any link type, and ISDN. In addition, participants should have taken the first four parts of this series (course 20311-14). This course will help candidates prepare for Cisco Certified Network Professional (CCNP) exam 640-403.
Total Learning Time
6 - 8 Hour(s)
Course Contents
Unit 1: Bridging Overview
Duration: 2 - 3 Hour(s)
Identify the function of a bridge used to interconnect local area networks (LANs).
Identify the standard bridging types and their functions.
Unit 2: Configuring Routing and Bridging
Duration: 2 - 3 Hour(s)
Identify functions involved in the transparent bridging operation on an internetwork.
Identify the method used by the spanning-tree protocol to avoid topological loops.
Perform the steps to configure a transparent bridge.
Match the headings shown when the bridge verification commands are executed with their descriptions.
Identify the function of Integrated Routing and Bridging (IRB) on an internetwork.
Identify the function of the Bridge-Group Virtual Interface (BVI) in enabling the (IRB) operation.
Identify the method BVI obtains MAC and network-layer addresses.
Identify the conditions used by IRB to switch packets from a bridged to a routed interface.
Perform the steps to configure IRB.
Perform the steps to enable bridge group routing.
Identify issues pertaining to the configuration of IRB.
Identify the commands used to verify IRB operation.
Unit 3: Configuring Source-Route Bridging
Duration: 2 Hour(s)
Sequence the steps performed in a source-route bridging (SRB) operation.
Identify the information contained in the routing information field.
Perform the steps to configure a SRB.
Perform the steps to complete a multiport configuration.
Identify the function of the proxy explorer command.
Perform the steps to complete a multiring configuration.
Identify the function of source-route transparent (SRT) bridging.
Perform the steps to configure a SRT bridge.
Identify the functions within source-route translational (SR/TLB) bridging operation.
Identify the components of the source-route bridging operation.
Perform the steps to configure a SR/TLB.
Match the data types shown when SRB verification commands are executed with their descriptions.
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