computer networking hardware operations iii · 2020. 8. 31. · using single-area open shortest...

1

Computer Networking Hardware Operations III 8544 18 weeks / 70 hours

Table of Contents Acknowledgments ......................................................................................................................................... 1

Course Description ........................................................................................................................................ 2

Task Essentials List ....................................................................................................................................... 3

Curriculum Framework ................................................................................................................................. 8

Designing a Local Area Network (LAN) ...................................................................................................... 8

Scaling Virtual Local Area Networks (VLANs) ......................................................................................... 10

Using Spanning Tree Protocol (STP).......................................................................................................... 14

Exploring EtherChannel and Hot Standby Router Protocol (HSRP) .......................................................... 16

Understanding Dynamic Routing................................................................................................................ 19

Exploring EIGRP ........................................................................................................................................ 21

Tuning and Troubleshooting EIGRP .......................................................................................................... 23

Using Single-Area Open Shortest Path First (OSPF) Protocol ................................................................... 25

Using Multi-Area OSPF Protocol ............................................................................................................... 30

Tuning and Troubleshooting OSPF ............................................................................................................ 32

SOL Correlation by Task ............................................................................................................................ 35

Transportation Career Modules .................................................................................................................. 39

Cyber Security and Cyber Forensics Infusion Units ................................................................................... 39

Entrepreneurship Infusion Units ................................................................................................................. 39

Appendix: Credentials, Course Sequences, and Career Cluster Information ............................................. 41

Acknowledgments The components of this instructional framework were developed by

2

Peyton Chichester, Chesterfield Career and Technical Center at Courthouse, Chesterfield County Public Schools Stephanie Evers, Battlefield High School, Prince William County Public Schools James Harper, Pittsylvania Career and Technical Center, Pittsylvania County Public Schools David Houchins, N.B. Handy Company, Lynchburg Randy Woodward, Washington County Career and Technical Education Center, Washington County Public Schools

Correlations to the Virginia Standards of Learning were reviewed and updated by

Norma J. Bonney, Kempsville High School, Virginia Beach City Public Schools Vickie L. Inge, Mathematics Committee Member, Virginia Mathematics and Science Coalition Anne F. Markwith, New Teacher Mentor, Gloucester County Public Schools Cathy Nichols-Cocke, PhD, Fairfax High School, Fairfax County Public Schools Caroline C. Wheeler, M.T., Secondary English, Richmond

The framework was edited and produced by the CTE Resource Center:

Debi F. Coleman, Writer/Editor Nathan K. Pope, Writer/Editor Kevin P. Reilly, Administrative Coordinator

J. Anthony Williams, Specialist, Trade and Industrial Education and Related Clusters Office of Career, Technical, and Adult Education

Virginia Department of Education

Tricia S. Jacobs, PhD, CTE Coordinator of Curriculum and Instruction Office of Career, Technical, and Adult Education

Virginia Department of Education

Copyright © 2017

Course Description Suggested Grade Level: 11 or 12 Prerequisites: 8543

This course familiarizes students with the equipment applications and protocols installed in enterprise networks, with a focus on switched networks, IP Telephony requirements, and security. It also introduces advanced routing protocols such as Enhanced Interior Gateway

3

Routing Protocol (EIGRP) and Open Shortest Path First (OSPF) Protocol. Hands-on exercises, including configuration, installation, and troubleshooting, reinforce student learning.

Task Essentials List • Tasks/competencies designated by plus icons ( ) in the left-hand column(s) are essential • Tasks/competencies designated by empty-circle icons ( ) are optional • Tasks/competencies designated by minus icons ( ) are omitted • Tasks marked with an asterisk (*) are sensitive.

Task Number 8544 Tasks/Competencies

Designing a Local Area Network (LAN) 39

Plan the network by design.

40

Identify scalability terminology.

41

Select switching hardware.

42

Identify the router category.

43

Configure basic router command line interface (CLI) and show commands.

Scaling Virtual Local Area Networks (VLANs) 44

Identify VLAN trunking protocol (VTP) concepts and operations.

45

Verify that VTP clients have received the new VLAN information.

46

Create a VLAN.

47

Assign ports to VLANs.

48

Verify VLAN information.

49

Configure extended VLANs.

50

Negotiate interface modes.

51

Predict dynamic trunking protocol (DTP) behavior.

4


52

Configure VTP and DTP.

53

Identify types of spanning tree protocols (STP).

54

Identify the troubleshooting command for inter-VLAN troubleshooting issues.

55

Troubleshoot inter-VLAN routing issues.

56

Troubleshoot VTP and DTP issues.

57

Configure Layer 3 switching and inter-VLAN routing.

58

Troubleshoot Layer 3 switching issues.

Using Spanning Tree Protocol (STP) 59

Describe Spanning Tree Protocol (STP).

60

Explain a redundant design.

61

Identify 802.1D port roles.

62

Build a switched network with redundant links.

63

Identify types of STP.

64

Identify Per-VLAN Spanning Tree Plus (PVST+) operation.

65

Compare PVST+ and Rapid PVST+ port roles in Rapid PVST+.

66

Configure PVST+ and Rapid PVST+.

67

Troubleshoot STP configuration issues.

Exploring EtherChannel and Hot Standby Router Protocol (HSRP) 68

Explain link aggregation.

5


69

Identify the Port Agregation Protocol (PAgP) and Link Agregation Control Protocol (LACP) modes.

70

Configure EtherChannel.

71

Troubleshoot EtherChannel.

72

Identify FHRP terminology and type.

73

Configure HSRP.

74

Troubleshoot HSRP.

Understanding Dynamic Routing 75

Explain the operation of dynamic routing protocols.

76

Classify dynamic routing protocols.

77

Compare routing protocols.

78

Demonstrate network convergence.

79

Identify distance-vector terminology.

80

Compare Routing Information Protocol (RIP) and Enhanced Interior Gateway Routing Protocol (EIGRP) path selection.

81

Build the link-state database and SPF tree.

Exploring EIGRP 82

Explain classless EIGRP.

83

Identify the EIGRP packet type.

84

Configure basic EIGRP with IPv4.

85

Identify the steps in establishing EIGRP neighbor adjacencies.

6


86

Determine the feasible successor.

87

Compare EIGRPv4 and EIGRPv6.

88


Tuning and Troubleshooting EIGRP 89

Examine advanced features of EIGRP.

90

Configure EIGRP automatic summarization.

91

Propagate a default route in EIGRP for IPv4 and IPv6.

92

Configure EIGRP fine tuning commands.

93

Configure advanced EIGRP for IPv4 features.

94

Troubleshoot basic EIGRP for IPv4 and IPv6.

95

Tune EIGRP.

Using Single-Area Open Shortest Path First (OSPF) Protocol 96

Identfy OSPF features and terminology.

97

Configure an OSPF router ID.

98

Modify a router ID.

99

Demonstrate the network command.

100

Configure passive interfaces.

101

Calculate the subnet and wildcard masks.

102

Configure OSPFv2 in a single area.

103

Adjust interface bandwidths.

7


104

Verify OSPF neighbors.

105

Verify OSPF protocol settings.

106

Verify OSPF process information.

107

Verify OSPF interface settings.

108

Configure basic single-area OSPFv2.

109

Compare OSPFv2 and OSPFv3.

110

Configure OSPFv3.

111

Verify OSPFv3.

Using Multi-Area OSPF Protocol 112

Explain multi-area OSPF.

113

Identify the OSPF link-state advertisement (LSA) type.

114

Configure multi-area OSPF and OSPFv3.

115

Verify general multi-area OSPF settings.

116

Configure multiarea OSPFv2 and OSPFv3.

Tuning and Troubleshooting OSPF

117

Change the OSPF priority.

118

Identify network types.

119

Select designated router.

120

Determine designated router (DR) and backup designated router (BDR).

121

Configure OSPFv2 on a multiaccess network.

8


122

Verify the propogated IPv4 default route.

123

Propagate a default route in OSPFv2.

124

Configure OSPFv2 advanced features.

125

Troubleshoot single-area OSPFv2.

126

Troubleshoot basic single-area OSPFv2 and OSPFv3.

127

Troubleshoot advanced single-area OSPFv2.

128

Troubleshoot multi-area OSPFv2 and OSPFv3.

Legend: Essential Non-essential Omitted

Curriculum Framework

Designing a Local Area Network (LAN) Task Number 39

Plan the network by design.

Definition

Planning should include designing a hierarchical network that is scalable.

Task Number 40

Identify scalability terminology.

Definition

9

Identification should include definitions of terms related to network scalability design.

Task Number 41

Select switching hardware.

Definition

Selection should include

• comparing Layer 2 and Layer 3 switches • comparing a Layer 3 switch and a router • exploring Cisco switch products • selecting an access layer switch • selecting a distribution/core layer switch.

Task Number 42

Identify the router category.

Definition

Identification should include using router descriptions to identify a router in one of the following categories:

• Branch • Network edge • Service provider router

Task Number 43

Configure basic router command line interface (CLI) and show commands.

Definition

Configuring should include

10

• enabling a router with OSPF • verifying and saving configuration changes • verifying router configurations using the show command • displaying information about the IPv4 routing protocols configuration • displaying the routing table • displaying the OSPF neighbor table • showing detailed information regarding interface status for all interfaces • showing a brief summary of the status of all interfaces • displaying all configured protocols • displaying information about directly connected Cisco devices.

Related Standards of Learning

Mathematics

COM.1 The student will design and apply computer programs to solve practical problems in mathematics arising from business and applications in mathematics.

Scaling Virtual Local Area Networks (VLANs) Task Number 44

Identify VLAN trunking protocol (VTP) concepts and operations.

Definition

Identification should include choosing the VTP mode that matches the description.

Task Number 45

Verify that VTP clients have received the new VLAN information.

Definition

Configure and verify VTP.

11

Task Number 46

Create a VLAN.

Definition

Creating a VLAN should include using the show vlan brief command to display the contents of the vlan.dat file.

Task Number 47

Assign ports to VLANs.

Definition

Assigning a VLAN should include using the show vlan brief command to display the contents of the vlan.dat file.

Task Number 48

Verify VLAN information.

Definition

Verification should include

• displaying the VLAN and switch port information • verifying VLAN assignments and mode.

Task Number 49

Configure extended VLANs.

Definition

Configuration should include verifying extended VLANs.

12

Task Number 50

Negotiate interface modes.

Definition

Negotiation should include determining the dynamic trunking protocol (DTP) mode on interface F0/1.

Task Number 51

Predict dynamic trunking protocol (DTP) behavior.

Definition

Prediction should include determining the DTP mode for the switches.

Task Number 52

Configure VTP and DTP.

Definition

Configuration should include a switched environment where trunks are negotiated and formed via DTP and VLAN information is propagated automatically through a VTP domain.

Task Number 53

Identify types of spanning tree protocols (STP).

Definition

Identification should include STP types by description.

Task Number 54

13

Identify the troubleshooting command for inter-VLAN troubleshooting issues.

Definition

Identification should include which command produced the output for Part 1–4.

Task Number 55

Troubleshoot inter-VLAN routing issues.

Definition

Troubleshooting should address connectivity problems caused by improper configurations related to VLANs and inter-VLAN routing.

Task Number 56

Troubleshoot VTP and DTP issues.

Definition

Troubleshooting should include a switched environment where trunks are negotiated and formed via DTP and VLAN information is propagated automatically through a VTP domain.

Task Number 57

Configure Layer 3 switching and inter-VLAN routing.

Definition

Configuration should include a Cisco 3560 switch.

Task Number 58

Troubleshoot Layer 3 switching issues.

14

Definition

Troubleshooting should include answering questions related to scenarios provided.

Using Spanning Tree Protocol (STP) Task Number 59

Describe Spanning Tree Protocol (STP).

Definition

Description should include the purpose of the Spanning Tree Protocol (STP) in a switched LAN environment with redundant switch links.

Task Number 60

Explain a redundant design.

Definition

Explanation should include

• checking for STP convergence • examining the ARP process • testing redundancy in a switched network.

Task Number 61

Identify 802.1D port roles.

Definition

Identification should include the rapid spanning tree protocol (RSTP) port roles by name and location on the topology.

Task Number 62

15

Build a switched network with redundant links.

Definition

Building the network should include

• configuring basic device settings • determining the root bridge • observing STP port selection based on

o port cost o port priority.

Complete this task using the following:

• 3 Switches (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)

• Console cables to configure the Cisco IOS devices via the console ports • Ethernet cables as shown in the topology

Task Number 63

Identify types of STP.

Definition

Identification should include descriptions of the STP types.

Task Number 64

Identify Per-VLAN Spanning Tree Plus (PVST+) operation.

Definition

Identification should include using a topology diagram to classify PVST+ interface port states as forwarding or blocking.

Task Number 65

16

Compare PVST+ and Rapid PVST+ port roles in Rapid PVST+.

Definition

Comparison should identify the port role types according to their location on the topology diagram. PVST+ and Rapid PVST+ should be compared according to their associated characteristics.

Task Number 66

Configure PVST+ and Rapid PVST+.

Definition

Configuration should include

• VLANs • Spanning Tree PVST+ and Rapid Spanning Tree PVST+ and load balancing • PortFast and bridge protocol data unit (BPDU) Guard.

Task Number 67

Troubleshoot STP configuration issues.

Definition

Troubleshooting should include the identification of the root bridge based on show command output for three different scenarios.

Exploring EtherChannel and Hot Standby Router Protocol (HSRP) Task Number 68

Explain link aggregation.

17

Definition

Explanation should include the operation of link aggregation in a switched LAN environment.

Task Number 69

Identify the Port Agregation Protocol (PAgP) and Link Agregation Control Protocol (LACP) modes.

Definition

Identification should include the following:

• Identify PAgP and LACP interface negotiation terms to descriptions. • Compare PAgP negotiation modes and determine if an EtherChannel will be established. • Compare LACP negotiation modes and determine if an EtherChannel will be established.

Task Number 70

Configure EtherChannel.

Definition


• basic switch settings • PAgP • LACP • display of

o port-channel interface status o a summary of configured EtherChannels o port-channel information for EtherChannel o EtherChannel information for a specific port using the show interfaces command.

Use the following for configuration:

• 3 Switches (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable) • 3 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term) • Console cables to configure the Cisco IOS devices via the console ports • Ethernet cables as shown in the topology

18

Task Number 71

Troubleshoot EtherChannel.

Definition

Troubleshooting should include the following:

• Examine the physical layer and correct switch port mode issues. • Identify and correct port-channel assignment issues. • Identify and correct port-channel protocol issues.

Task Number 72

Identify FHRP terminology and type.

Definition

Identification of FHRP terminology and type should be based on definitions.

Task Number 73

Configure HSRP.

Definition


• building the network • verifying connectivity • configuring first hop redundancy using HSRP.

Task Number 74

Troubleshoot HSRP.

19

Definition

Troubleshoot should include

• resolving the HSRP issues in the network • verifying that all the HSRP configurations meet the network requirement.

Understanding Dynamic Routing Task Number 75

Explain the operation of dynamic routing protocols.

Definition

Explanation should include the operation of dynamic routing protocols.

Task Number 76

Classify dynamic routing protocols.

Definition

Classification should include ordering dynamic routing protocols by name and type.

Task Number 77

Compare routing protocols.

Definition

Comparison should include distance-vector and link-state routing protocols (three scenarios) by characteristics.

Task Number 78

Demonstrate network convergence.

20

Definition

Demonstration should include

• viewing a routing table of a converged network • adding a new LAN to the topology • watching the network converge.

Task Number 79

Identify distance-vector terminology.

Definition

Identification should include matching the distance-vector terminology to the routing protocol descriptions.

Task Number 80

Compare Routing Information Protocol (RIP) and Enhanced Interior Gateway Routing Protocol (EIGRP) path selection.

Definition

Comparison of RIP and EIGRP path selection should include the following steps:

• Predict the routing path. • Trace the route. • Complete reflection questions.

Task Number 81

Build the link-state database and SPF tree.

Definition

21

Building should include

• troubleshooting and resolving the HSRP issues in the network • verifying that all the HSRP configurations meet the network requirement.

Exploring EIGRP Task Number 82

Explain classless EIGRP.

Definition

Explanation should include the basic features of EIGRP.

Task Number 83

Identify the EIGRP packet type.

Definition

Identification should include EIGRP packet types by definitions.

Task Number 84


Definition

Configuration should include the following:

• Build a network and verify connectivity. • Configure EIGRP routing. • Verify EIGRP routing. • Configure bandwidth and passive interfaces.

Use the following tools for configuration:

• 3 routers (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable) • 3 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)

22

• Console cables to configure the Cisco IOS devices via the console ports • Ethernet and serial cables as shown in the topology

Task Number 85


Definition

Identification should include the order of EIGRP messages to establish neighbor adjacencies.

Task Number 86

Determine the feasible successor.

Definition

Determination of the successor and feasible successor routes for two different scenarios should be based on an EIGRP routing domain topology diagram and show IP EIGRP topology command output results.

Task Number 87

Compare EIGRPv4 and EIGRPv6.

Definition

Comparison should include identifying EIGRPv4 or EIGRPv6 by described features.

Task Number 88


Definition

23


• Build a network and verify connectivity. • Configure EIGRP for IPv6 routing. • Verify EIGRP for IPv6 routing. • Configure and verify passive interfaces.

Configuration should use the following:

• 3 routers (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable) • 3 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term) • Console cables to configure the Cisco IOS devices via the console ports • Ethernet and serial cables as shown in the topology

Tuning and Troubleshooting EIGRP Task Number 89

Examine advanced features of EIGRP.

Definition

Examination should include implementing advanced EIGRP features to enhance operation in a small to medium-sized business network.

Task Number 90

Configure EIGRP automatic summarization.

Definition


• Display current EIGRP routes prior to route summarization. • Configure EIGRP automatic summarization on the router. • Display the EIGRP routing table on a router to view the routes after summarization. • Display routing protocol settings for the router. • Display the EIGRP topology table using the "all-links" parameter on the router.

24

Task Number 91

Propagate a default route in EIGRP for IPv4 and IPv6.

Definition

Propagation should include

• an IPv4 default route • an IPv6 default route.

Verify connectivity to outside hosts.

Task Number 92

Configure EIGRP fine tuning commands.

Definition

Configuration should include options for EIGRP bandwidth utilization and hello intervals.

Task Number 93

Configure advanced EIGRP for IPv4 features.

Definition


• Build a network and configure basic device settings. • Configure EIGRP and verify connectivity. • Configure summarization for EIGRP. • Propagate a default route. • Configure fine-tuning EIGRP options. • Configure EIGRP authentication.

Configuration should use the following:

• 3 routers (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable) • 3 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term) • Console cables to configure the Cisco IOS devices via the console ports

25

• Ethernet and serial cables as shown in the topology

Task Number 94

Troubleshoot basic EIGRP for IPv4 and IPv6.

Definition

Troubleshooting should include the following:

• Build a network and load device configurations. • Troubleshoot Layer 3 connectivity. • Troubleshoot EIGRP for IPv4. • Troubleshoot EIGRP for IPv6. • Verify EIGRP IPv4 and IPv6 routing information.

Use the following:

• 3 routers (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable) • 3 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term) • Console cables to configure the Cisco IOS devices via the console ports • Ethernet and serial cables as shown in the topology

Task Number 95

Tune EIGRP.

Definition

Tuning should include implementing advanced EIGRP features to enhance operation in a small-to-medium sized business network.

Using Single-Area Open Shortest Path First (OSPF) Protocol Task Number 96

26

Identfy OSPF features and terminology.

Definition

Identification should include OSPF terminology and features as compared to corresponding function descriptions.

Task Number 97

Configure an OSPF router ID.

Definition

Configuration should include comparing RIP and EIGRP routing protocols by descriptive statements.

Task Number 98

Modify a router ID.

Definition

Modification should include

• predicting the routing path • tracing the route • completing reflection questions.

Task Number 99

Demonstrate the network command.

Definition

Demonstration should include configuring a router to advertise networks using OSPF.

Task Number 100

27

Configure passive interfaces.

Definition


• configuring a passive LAN interface • verifying OSPF settings.

Task Number 101

Calculate the subnet and wildcard masks.

Definition

Calculation should include determining the subnet mask and wildcard mask required to advertise the specified OSPF network addresses.

Task Number 102

Configure OSPFv2 in a single area.

Definition


• configuring OSPFv2 routing • verifying configurations and network connectivity.

Task Number 103

Adjust interface bandwidths.

Definition

Adjustment should include

28

• troubleshooting and resolving the HSRP issues in the network • verifying that all the HSRP configurations meet the network requirement.

Task Number 104

Verify OSPF neighbors.

Definition

Verification should include displaying an OSPF neighbor table.

Task Number 105

Verify OSPF protocol settings.

Definition

Verification of OSPF protocol settings should be done on a router.

Task Number 106

Verify OSPF process information.

Definition

Verification of OSPF process settings should be done on a router.

Task Number 107

Verify OSPF interface settings.

Definition

Verification should include showing a brief listing of the OSPF interfaces.

29

Task Number 108

Configure basic single-area OSPFv2.

Definition


• building a network and configuring basic device settings • configuring and verifying OSPF routing • changing router ID assignments • configuring OSPF passive interfaces • changing OSPF metrics.

Task Number 109

Compare OSPFv2 and OSPFv3.

Definition

Comparison should be performed according to activity identifiers.

Task Number 110

Configure OSPFv3.

Definition


• assigning link-local addresses on interfaces • assigning a router ID using IPv6 configuration mode • modifying an OSPFv3 router ID • enabling OSPFv3 process IDs for interfaces on a router.

Task Number 111

30

Verify OSPFv3.

Definition


• verifying OSPFv3 neighbors for two routers • verifying OSPFv2 protocol settings for two routers • verifying OSPFv3 interface settings using brief format for two routers • verifying the IPv6 routing table to show only the OSPF routes.

Using Multi-Area OSPF Protocol Task Number 112


Definition

Explanation should include the operation of multi-area OSPF to enable internetworking in a small to medium-sized business network. Explanation should also include identifying multi-area OSPF router areas and types for the topology representation. Use the following to assist with this task:

• Blank world map diagram • Word processing software or alternative graphics software for marking airport locations

and their connections

Task Number 113

Identify the OSPF link-state advertisement (LSA) type.

Definition

Identification should include the OSPF LSA types for three different scenarios.

Task Number 114

31

Configure multi-area OSPF and OSPFv3.

Definition


• a router ID • multi-area OSPFv2 networks.

Task Number 115

Verify general multi-area OSPF settings.

Definition


• displaying IP protocol information • showing a brief list of interfaces participating in OSPF.

Task Number 116

Configure multiarea OSPFv2 and OSPFv3.

Definition


• building a network and configuring basic device settings • a multi-area OSPFv2 AND OSPFv3 network • interarea summary routes

using

• 3 routers (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable) • console cables to configure the Cisco IOS devices via the console ports • serial cables as shown in the topology.

32

Tuning and Troubleshooting OSPF Task Number 117

Change the OSPF priority.

Definition

Change should include

• displaying OSPF configuration and adjacencies for two routers • displaying the OSPF neighbor tables for two routers.

Task Number 118

Identify network types.

Definition

Identification should include

• identifying the OSPF network types based upon listed characteristics • ordering the steps in the DR election process.

Task Number 119

Select designated router.

Definition

Selection should include the use of a topology representation to identify router IDs and the designated routers.

Task Number 120

33

Determine designated router (DR) and backup designated router (BDR).

Definition

Determination should include

• examining DR and BDR changing roles • modifying OSPF priority and force elections.

Task Number 121

Configure OSPFv2 on a multiaccess network.

Definition


• building a network and configuring basic device settings • configuring and verifying OSPFv2 on the DR, BDR, and DROther • configuring OSPFv2 interface priority to determine the DR and BDR.

Task Number 122

Verify the propogated IPv4 default route.

Definition

Verification should include IPv6 default routes propagated from one router to two other routers.

Task Number 123

Propagate a default route in OSPFv2.

Definition

Propagation should include

34

• propagating a default route • verifying connectivity.

Task Number 124

Configure OSPFv2 advanced features.

Definition


• building the network and configuring basic device settings • configuring and verifying OSPF routing • changing OSPF metrics • configuring and propagating a static default route • configuring OSPF authentication.

Task Number 125

Troubleshoot single-area OSPFv2.

Definition

Troubleshooting should include

• troubleshooting OSPF routing issues using the ping and show commands to identify errors in the network configuration

• documenting discovered configuration errors and implementing a solution • verifying end-to-end network connectivity using implemented solutions.

Task Number 126

Troubleshoot basic single-area OSPFv2 and OSPFv3.

Definition


35

• building a network and loading device configurations • troubleshooting Layer 3 connectivity • troubleshooting OSPFv2 • troubleshooting OSPFv3.

Task Number 127

Troubleshoot advanced single-area OSPFv2.

Definition


• building a network and loading device configurations • troubleshooting OSPF.

Task Number 128

Troubleshoot multi-area OSPFv2 and OSPFv3.

Definition


• building the network and loading device configurations • troubleshooting layer 3 connectivity • troubleshooting OSPFv2 • troubleshooting OSPFv3.

SOL Correlation by Task 39 Plan the network by design.

40 Identify scalability terminology. English: 10.3, 11.3, 12.3 41 Select switching hardware.

42 Identify the router category. English: 10.5, 11.5, 12.5

36

43 Configure basic router command line interface (CLI) and show commands. Mathematics: COM.1

44 Identify VLAN trunking protocol (VTP) concepts and operations.

45 Verify that VTP clients have received the new VLAN information.

46 Create a VLAN.

47 Assign ports to VLANs.

48 Verify VLAN information.

49 Configure extended VLANs.

50 Negotiate interface modes.

51 Predict dynamic trunking protocol (DTP) behavior. English: 10.5, 11.5, 12.5 52 Configure VTP and DTP.

53 Identify types of spanning tree protocols (STP). English: 10.5, 11.5, 12.5 54 Identify the troubleshooting command for inter-VLAN

troubleshooting issues.

55 Troubleshoot inter-VLAN routing issues.

56 Troubleshoot VTP and DTP issues.

57 Configure Layer 3 switching and inter-VLAN routing.

58 Troubleshoot Layer 3 switching issues.

59 Describe Spanning Tree Protocol (STP). Mathematics: COM.1, COM.5 60

Explain a redundant design. English: 10.5, 11.5, 12.5

Mathematics: COM.5 61 Identify 802.1D port roles.

62 Build a switched network with redundant links. Mathematics: COM.5, COM.11 63 Identify types of STP. English: 10.5, 11.5, 12.5 64 Identify Per-VLAN Spanning Tree Plus (PVST+) operation. English: 10.5, 11.5, 12.5 65 Compare PVST+ and Rapid PVST+ port roles in Rapid

PVST+. English: 10.5, 11.5, 12.5

66 Configure PVST+ and Rapid PVST+. Mathematics: COM.5 67 Troubleshoot STP configuration issues. Mathematics: COM.5 68 Explain link aggregation. English: 10.5, 11.5, 12.5 69 Identify the Port Agregation Protocol (PAgP) and Link

Agregation Control Protocol (LACP) modes. English: 10.5, 11.5, 12.5

70 Configure EtherChannel.

37

71 Troubleshoot EtherChannel.

English: 10.5, 11.5, 12.5

Mathematics: COM.5 72 Identify FHRP terminology and type. English: 10.3, 10.5, 11.3, 11.5, 12.3, 12.5 73 Configure HSRP.

74 Troubleshoot HSRP. English: 10.5, 11.5, 12.5 75 Explain the operation of dynamic routing protocols. English: 10.5, 11.5, 12.5 76 Classify dynamic routing protocols. English: 10.6, 11.6, 12.6 77 Compare routing protocols.

78 Demonstrate network convergence. English: 10.5, 11.5, 12.5 79 Identify distance-vector terminology. English: 10.5, 11.5, 12.5 80 Compare Routing Information Protocol (RIP) and Enhanced

Interior Gateway Routing Protocol (EIGRP) path selection. English: 10.5, 11.5, 12.5

81 Build the link-state database and SPF tree.

82 Explain classless EIGRP. English: 10.5, 11.5, 12.5 83 Identify the EIGRP packet type. English: 10.5, 11.5, 12.5 84 Configure basic EIGRP with IPv4.

85


English: 10.5, 11.5, 12.5

Mathematics: COM.1, COM.5

86 Determine the feasible successor.

English: 10.5, 11.5, 12.5

Mathematics: COM.1 87

Compare EIGRPv4 and EIGRPv6. English: 10.5, 11.5, 12.5

Mathematics: COM.1 88 Configure basic EIGRP with IPv6. Mathematics: COM.1, COM.5 89

Examine advanced features of EIGRP. English: 10.5, 11.5, 12.5

Mathematics: COM.1 90 Configure EIGRP automatic summarization. Mathematics: COM.1, COM.5 91 Propagate a default route in EIGRP for IPv4 and IPv6. Mathematics: COM.1, COM.5 92 Configure EIGRP fine tuning commands. Mathematics: COM.1, COM.5

38

93 Configure advanced EIGRP for IPv4 features. Mathematics: COM.1, COM.5 94 Troubleshoot basic EIGRP for IPv4 and IPv6. Mathematics: COM.1, COM.5 95 Tune EIGRP.

96 Identfy OSPF features and terminology. English: 10.5, 11.5, 12.5 97 Configure an OSPF router ID.

98 Modify a router ID.

99 Demonstrate the network command.

100 Configure passive interfaces.

101 Calculate the subnet and wildcard masks.

102 Configure OSPFv2 in a single area.

103 Adjust interface bandwidths.

104 Verify OSPF neighbors.

105 Verify OSPF protocol settings.

106 Verify OSPF process information.

107 Verify OSPF interface settings.

108 Configure basic single-area OSPFv2.

109 Compare OSPFv2 and OSPFv3.

110 Configure OSPFv3.

111 Verify OSPFv3.

112


English: 10.5, 11.5, 12.5

History and Social Science: WG.3

Mathematics: COM.1 113

Identify the OSPF link-state advertisement (LSA) type. English: 10.5, 11.5, 12.5

Mathematics: COM.1 114 Configure multi-area OSPF and OSPFv3. Mathematics: COM.1, COM.5 115 Verify general multi-area OSPF settings. Mathematics: COM.1 116 Configure multiarea OSPFv2 and OSPFv3. Mathematics: COM.1, COM.5 117 Change the OSPF priority.

118 Identify network types.

119 Select designated router.

39

120 Determine designated router (DR) and backup designated router (BDR). English: 10.5, 11.5, 12.5

121 Configure OSPFv2 on a multiaccess network.

122 Verify the propogated IPv4 default route.

123 Propagate a default route in OSPFv2.

124 Configure OSPFv2 advanced features.

125 Troubleshoot single-area OSPFv2. English: 10.5, 11.5, 12.5 126 Troubleshoot basic single-area OSPFv2 and OSPFv3.

127 Troubleshoot advanced single-area OSPFv2.

128 Troubleshoot multi-area OSPFv2 and OSPFv3.

Transportation Career Modules The following transportation career modules were correlated to this course in March 2012 as part of Careers in Transportation Curriculum Project funded by the US Department of Transportation. Modules include field-tested activities and lesson plans that require students to apply knowledge and skills learned in this course and may encourage students to explore related careers in the Transportation, Distribution, and Logistics Career Cluster. Click on the link to access the Careers in Transportation Curriculum Project site and scroll down to search for modules by ID number and title. Related Career Module(s):

• ID#: LPMS701-113 Title: Graphical Linear Programming

Cyber Security and Cyber Forensics Infusion Units Cyber Security and Cyber Forensics Infusion Units were designed to be infused with designated CTE courses to help students in those programs achieve additional, focused, validated tasks/competencies in personal and professional cyber security skills. These units are not mandatory, and, as such, the tasks/competencies are marked as "optional," to be taught at the instructor's discretion. Teachers can find the infusion/unit in the course listing.

Entrepreneurship Infusion Units Entrepreneurship Infusion Units may be used to help students achieve additional, focused competencies and enhance the validated tasks/competencies related to identifying and starting a new business venture. Because the unit is a complement to certain designated courses and is not

https://www.transportation.gov/careers

40

mandatory, all tasks/competencies are marked “optional.” Teachers can find the infusion/unit in the course listing.

41

Appendix: Credentials, Course Sequences, and Career Cluster Information Industry Credentials: Only apply to 36-week courses

• A+ Certification Examination • Business Information Processing Assessment • Cisco Certified CyberOps Associate Examination • Cisco Certified DevNet Associate Examination • Cisco Certified Networking Associate (CCNA) Examination • Cisco Certified Networking Professional (CCNP) Automation for Cisco Enterprise Solutions Examination • Cisco Certified Networking Professional (CCNP) Cisco Enterprise Networks Examination • Cisco Certified Networking Professional (CCNP) Cisco SD-WAN Solutions Examination • Cisco Certified Networking Professional (CCNP) Designing Enterprise Wireless Networks Examination • Cisco Certified Networking Professional (CCNP) Enterprise Advanced Routing and Services Examination • Cisco Certified Networking Professional (CCNP) Enterprise Network Core Technologies Examination • Cisco Certified Networking Professional (CCNP) Implementing Enterprise Wireless Networks Examination • College and Work Readiness Assessment (CWRA+) • Computer Networking Fundamentals Assessment • Customer Service Specialist (CSS) Examination • Internetworking Examination • IT Fundamentals+ Certification Examination • Microsoft 365 Fundamentals Examination • Microsoft Certified Azure Fundamentals Examination • Microsoft Dynamics 365 Fundamentals Examination • Microsoft Office Specialist (MOS) Examinations • Microsoft Technology Associate (MTA) Examinations • Network Administration Certification Tests • Network+ Certification Examination • Professional Communications Certification Examination • Security+ Certification Examination • Technical Support Certification Tests • Workplace Readiness Skills for the Commonwealth Examination

Concentration sequences: A combination of this course and those below, equivalent to two 36-week courses, is a concentration sequence. Students wishing to complete a specialization may take additional courses based on their career pathways. A program completer is a student who has met the requirements for a CTE concentration sequence and all other requirements for high school graduation or an approved alternative education program.

• Computer Networking Hardware Operations I (8542/18 weeks, 70 hours) • Computer Networking Hardware Operations II (8543/18 weeks, 70 hours) • Computer Networking Hardware Operations IV (8545/18 weeks, 70 hours)

42

Career Cluster: Information Technology

Pathway Occupations

Information Support and Services

Applications Integrator Computer Support Specialist Computer Systems Engineer, Architect Database Administrator Database Analyst Information Systems Analyst Information Systems Security Developer Information Systems Security Manager Maintenance Technician Network Systems and Data Communication Analyst Software Test Engineer Systems Analyst Technical Writer

Network Systems

Computer and Information Systems Administrator Computer Operator Computer Security Specialist Computer Software Engineer Computer Support Specialist Computer Systems Engineer, Architect Database Analyst Information Security Analyst Network and Computer Systems Administrator Network Architect Network Systems and Data Communication Analyst Software Test Engineer Systems Analyst Telecommunications Equipment Installer, Repairer Telecommunications Specialist

Programming and Software Development

Computer Software Engineer Information Security Analyst Network Systems and Data Communication Analyst Programmer Project Manager Software Applications Engineer Software Test Engineer Systems Analyst

Web and Digital Communications

Computer Support Specialist Computer Systems Engineer, Architect Project Manager Software Test Engineer Systems Analyst

Computer Networking Hardware Operations III8544 18 weeks / 70 hoursTable of ContentsAcknowledgmentsCourse DescriptionTask Essentials ListCurriculum FrameworkDesigning a Local Area Network (LAN)Task Number 39Plan the network by design.Definition

Task Number 40Identify scalability terminology.Definition

Task Number 41Select switching hardware.Definition

Task Number 42Identify the router category.Definition

Task Number 43Configure basic router command line interface (CLI) and show commands.DefinitionRelated Standards of LearningMathematics

Scaling Virtual Local Area Networks (VLANs)Task Number 44Identify VLAN trunking protocol (VTP) concepts and operations.Definition

Task Number 45Verify that VTP clients have received the new VLAN information.Definition

Task Number 46Create a VLAN.Definition

Task Number 47Assign ports to VLANs.Definition

Task Number 48Verify VLAN information.Definition

Task Number 49Configure extended VLANs.Definition

Task Number 50Negotiate interface modes.Definition

Task Number 51Predict dynamic trunking protocol (DTP) behavior.Definition

Task Number 52Configure VTP and DTP.Definition

Task Number 53Identify types of spanning tree protocols (STP).Definition

Task Number 54Identify the troubleshooting command for inter-VLAN troubleshooting issues.Definition

Task Number 55Troubleshoot inter-VLAN routing issues.Definition

Task Number 56Troubleshoot VTP and DTP issues.Definition

Task Number 57Configure Layer 3 switching and inter-VLAN routing.Definition

Task Number 58Troubleshoot Layer 3 switching issues.Definition

Using Spanning Tree Protocol (STP)Task Number 59Describe Spanning Tree Protocol (STP).Definition

Task Number 60Explain a redundant design.Definition

Task Number 61Identify 802.1D port roles.Definition

Task Number 62Build a switched network with redundant links.Definition

Task Number 63Identify types of STP.Definition

Task Number 64Identify Per-VLAN Spanning Tree Plus (PVST+) operation.Definition

Task Number 65Compare PVST+ and Rapid PVST+ port roles in Rapid PVST+.Definition

Task Number 66Configure PVST+ and Rapid PVST+.Definition

Task Number 67Troubleshoot STP configuration issues.Definition

Exploring EtherChannel and Hot Standby Router Protocol (HSRP)Task Number 68Explain link aggregation.Definition

Task Number 69Identify the Port Agregation Protocol (PAgP) and Link Agregation Control Protocol (LACP) modes.Definition

Task Number 70Configure EtherChannel.Definition

Task Number 71Troubleshoot EtherChannel.Definition

Task Number 72Identify FHRP terminology and type.Definition

Task Number 73Configure HSRP.Definition

Task Number 74Troubleshoot HSRP.Definition

Understanding Dynamic RoutingTask Number 75Explain the operation of dynamic routing protocols.Definition

Task Number 76Classify dynamic routing protocols.Definition

Task Number 77Compare routing protocols.Definition

Task Number 78Demonstrate network convergence.Definition

Task Number 79Identify distance-vector terminology.Definition

Task Number 80Compare Routing Information Protocol (RIP) and Enhanced Interior Gateway Routing Protocol (EIGRP) path selection.Definition

Task Number 81Build the link-state database and SPF tree.Definition

Exploring EIGRPTask Number 82Explain classless EIGRP.Definition

Task Number 83Identify the EIGRP packet type.Definition

Task Number 84Configure basic EIGRP with IPv4.Definition

Task Number 85Identify the steps in establishing EIGRP neighbor adjacencies.Definition

Task Number 86Determine the feasible successor.Definition

Task Number 87Compare EIGRPv4 and EIGRPv6.Definition

Task Number 88Configure basic EIGRP with IPv6.Definition

Tuning and Troubleshooting EIGRPTask Number 89Examine advanced features of EIGRP.Definition

Task Number 90Configure EIGRP automatic summarization.Definition

Task Number 91Propagate a default route in EIGRP for IPv4 and IPv6.Definition

Task Number 92Configure EIGRP fine tuning commands.Definition

Task Number 93Configure advanced EIGRP for IPv4 features.Definition

Task Number 94Troubleshoot basic EIGRP for IPv4 and IPv6.Definition

Task Number 95Tune EIGRP.Definition

Using Single-Area Open Shortest Path First (OSPF) ProtocolTask Number 96Identfy OSPF features and terminology.Definition

Task Number 97Configure an OSPF router ID.Definition

Task Number 98Modify a router ID.Definition

Task Number 99Demonstrate the network command.Definition

Task Number 100Configure passive interfaces.Definition

Task Number 101Calculate the subnet and wildcard masks.Definition

Task Number 102Configure OSPFv2 in a single area.Definition

Task Number 103Adjust interface bandwidths.Definition

Task Number 104Verify OSPF neighbors.Definition

Task Number 105Verify OSPF protocol settings.Definition

Task Number 106Verify OSPF process information.Definition

Task Number 107Verify OSPF interface settings.Definition

Task Number 108Configure basic single-area OSPFv2.Definition

Task Number 109Compare OSPFv2 and OSPFv3.Definition

Task Number 110Configure OSPFv3.Definition

Task Number 111Verify OSPFv3.Definition

Using Multi-Area OSPF ProtocolTask Number 112Explain multi-area OSPF.Definition

Task Number 113Identify the OSPF link-state advertisement (LSA) type.Definition

Task Number 114Configure multi-area OSPF and OSPFv3.Definition

Task Number 115Verify general multi-area OSPF settings.Definition

Task Number 116Configure multiarea OSPFv2 and OSPFv3.Definition

Tuning and Troubleshooting OSPFTask Number 117Change the OSPF priority.Definition

Task Number 118Identify network types.Definition

Task Number 119Select designated router.Definition

Task Number 120Determine designated router (DR) and backup designated router (BDR).Definition

Task Number 121Configure OSPFv2 on a multiaccess network.Definition

Task Number 122Verify the propogated IPv4 default route.Definition

Task Number 123Propagate a default route in OSPFv2.Definition

Task Number 124Configure OSPFv2 advanced features.Definition

Task Number 125Troubleshoot single-area OSPFv2.Definition

Task Number 126Troubleshoot basic single-area OSPFv2 and OSPFv3.Definition

Task Number 127Troubleshoot advanced single-area OSPFv2.Definition

Task Number 128Troubleshoot multi-area OSPFv2 and OSPFv3.Definition

SOL Correlation by TaskTransportation Career ModulesCyber Security and Cyber Forensics Infusion UnitsEntrepreneurship Infusion UnitsAppendix: Credentials, Course Sequences, and Career Cluster Information

computer networking hardware operations iii · 2020. 8. 31. · using single-area open shortest...

Documents