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Scaling Networks v6 Labs & Study Guide [Pehme köide]

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  • Formaat: Paperback / softback, 496 pages, kõrgus x laius x paksus: 275x220x28 mm, kaal: 1147 g
  • Sari: Lab Companion
  • Ilmumisaeg: 22-Aug-2017
  • Kirjastus: Cisco Press
  • ISBN-10: 1587134330
  • ISBN-13: 9781587134333
Teised raamatud teemal:
Scaling Networks v6 Labs & Study GuideSuurem pilt
  • Formaat: Paperback / softback, 496 pages, kõrgus x laius x paksus: 275x220x28 mm, kaal: 1147 g
  • Sari: Lab Companion
  • Ilmumisaeg: 22-Aug-2017
  • Kirjastus: Cisco Press
  • ISBN-10: 1587134330
  • ISBN-13: 9781587134333
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781587134333.html
Märksõnad:

The only authorized Lab & Study Guide for the Cisco Networking Academy Scaling Networks course in the CCNA Routing and Switching curriculum


Each chapter of this book is divided into a Study Guide section followed by a Lab section.


The Study Guide section offers exercises that help you learn the concepts, configurations, and troubleshooting skills crucial to your success as a CCNA exam candidate. Each chapter is slightly different and includes some or all of the following types of exercises:


  • Vocabulary Matching Exercises
  • Concept Questions Exercises
  • Skill-Building Activities and Scenarios
  • Configuration Scenarios
  • Packet Tracer Exercises
  • Troubleshooting Scenarios


The Labs & Activities includes all the online course labs and Packet Tracer activity instructions. If applicable, this section begins with a Command Reference that you will complete to highlight all the commands introduced in the chapter.

Introduction xxviii
Chapter 1 LAN Design 1(18)
Study Guide
2(1)
Campus Wired LAN Designs
2(1)
Hierarchical Network Design
2(1)
Identify Scalability Terminology
3(1)
Selecting Network Devices
3(6)
Selecting Switch Hardware
4(1)
Selecting Router Hardware
4(1)
Managing Devices
5(1)
Basic Router Configuration Review
5(1)
Basic Router Verification Review
6(1)
Basic Switch Configuration Review
6(1)
Basic Switch Verification Review
7(1)
Packet Tracer Exercise 1-1: Basic Device Configuration
8(1)
Labs and Activities
9(1)
Command Reference
9(1)
1.0.1.2 Class Activity-Network by Design
10(1)
Objective
10(1)
Scenario
10(1)
Resources
10(1)
Directions
10(1)
1.2.1.7 Packet Tracer-Compare 2960 and 3560 Switches
11(3)
Topology
11(1)
Objective
11(1)
Background
11(1)
Part 1: Compare Layer 2 and Layer 3 Switches
11(1)
Part 2: Compare a Layer 3 Switch and a Router
12(1)
Suggested Scoring Rubric
13(1)
1.3.1.1 Class Activity-Layered Network Design Simulation
14(1)
Objectives
14(1)
Scenario
14(1)
Resources
14(1)
Directions
14(1)
1.3.1.3 Packet Tracer-Skills Integration Challenge
15(4)
Topology
15(1)
Addressing Table
15(1)
VLANs and Port Assignments Table
16(1)
Scenario
16(1)
Documentation
16(1)
Implementation
16(1)
Verification
17(1)
Troubleshooting Documentation
18(1)
Suggested Scoring Rubric
18(1)
Chapter 2 Scaling VLANs 19(48)
Study Guide
20(1)
VTP, Extended VLANs, and DTP
20(6)
VTP Concepts and Operation
20(1)
VTP Modes
20(1)
VTP Advertisements
21(1)
Default VTP Configuration
21(1)
VTP Caveats
21(1)
VTP Configuration
22(2)
Packet Tracer Exercise 2-1: VTP Configuration
24(1)
Extended VLANs
25(1)
DTP
25(1)
Troubleshoot Multi-VLAN Issues
26(2)
Layer 3 Switching
28(3)
Layer 3 Switching Operation
28(1)
Layer 3 Switching Troubleshooting Scenarios
29(2)
Labs and Activities
31(1)
Command Reference
31(1)
2.1.4 A Packet Tracer-Configure VLANs, VTP, and DTP
32(7)
Topology
32(1)
Addressing Table
32(1)
Objectives
32(1)
Background/Scenario
32(1)
Part 1: Configure and Verify DTP
33(1)
Part 2: Configure and Verify VTP
34(5)
2.1.4.5 Lab-Configure Extended VLANs, VTP, and DTP
39(9)
Topology
39(1)
Addressing Table
39(1)
Objectives
39(1)
Background/Scenario
39(1)
Required Resources
40(1)
Part 1: Configure VTP
40(1)
Part 2: Configure DTP
41(2)
Part 3: Add VLANs and Assign Ports
43(2)
Part 4: Configure Extended VLAN
45(2)
Reflection
47(1)
Router Interface Summary Table
47(1)
2.2.2.4 Packet Tracer-Troubleshooting Inter-VLAN Routing
48(2)
Topology
48(1)
Addressing Table
48(1)
Objectives
48(1)
Scenario
48(1)
Part 1: Locate the Network Problems
48(1)
Documentation Table
49(1)
Part 2: Implement the Solutions
49(1)
Part 3: Verify Network Connectivity
49(1)
Suggested Scoring Rubric
49(1)
2.2.2.5 Lab-Troubleshooting Inter-VLAN Routing
50(9)
Topology
50(1)
Addressing Table
50(1)
Switch Port Assignment Specifications
51(1)
Objectives
51(1)
Background/Scenario
51(1)
Required Resources
51(1)
Part 1: Build the Network and Load Device Configurations
52(2)
Part 2: Troubleshoot the Inter-VLAN Routing Configuration
54(1)
Part 3: Verify VLAN Configuration, Port Assignment, and Trunking
54(2)
Part 4: Test Layer 3 Connectivity
56(1)
Reflection
57(1)
Router Interface Summary Table
58(1)
2.2.3.3 Packet Tracer-Troubleshoot VTP and DTP
59(4)
Topology
59(1)
Addressing Table
59(1)
Objectives
59(1)
Background/Scenario
59(1)
Part 1: Troubleshoot DTP
60(1)
Part 2: Troubleshoot VTP
60(3)
2.3.1.5 Packet Tracer-Configure Layer 3 Switching and Inter-VLAN Routing
63(4)
Topology
63(1)
Addressing Table
63(1)
Objectives
63(1)
Background/Scenario
64(1)
Part 1: Configure Layer 3 Switching
64(1)
Part 2: Configure Inter-VLAN Routing
64(3)
Chapter 3 STP 67(44)
Study Guide
68(1)
Spanning Tree Concepts
68(4)
Draw a Redundant Topology
68(1)
Purpose of Spanning Tree
68(1)
Spanning Tree Operation
69(2)
Identify the 802.1D Port Roles
71(1)
Varieties of Spanning Tree Protocols
72(3)
Comparing the STP Varieties
72(2)
PVST+ Operation
74(1)
Rapid PVST+ Operation
75(1)
Spanning Tree Configuration
75(4)
PVST+ and Rapid PVST+ Configuration
76(2)
Packet Tracer Exercise 3-1: STP Configuration
78(1)
Labs and Activities
79(1)
Command Reference
79(1)
3.0.1.2 Class Activity-Stormy Traffic
80(2)
Objective
80(1)
Scenario
80(1)
Resources
80(1)
Reflection
80(2)
3.1.1.5 Packet Tracer-Examining a Redundant Design
82(3)
Topology
82(1)
Objectives
82(1)
Background
82(1)
Part 1: Check for STP Convergence
82(1)
Part 2: Examine the ARP Process
83(1)
Part 3: Test Redundancy in a Switched Network
83(1)
Suggested Scoring Rubric
84(1)
3.1.2.12
Lab-Building a Switched Network with Redundant Links
85(1)
Topology
85(1)
Addressing Table
85(1)
Objectives
85(1)
Background/Scenario
85(1)
Required Resources
86(1)
Part 1: Build the Network and Configure Basic Device Settings
86(1)
Part 2: Determine the Root Bridge
86(3)
Part 3: Observe STP Port Selection Based on Port Cost
89(2)
Part 4: Observe STP Port Selection Based on Port Priority
91(2)
Reflection
93(1)
3.3.1.5 Packet Tracer-Configuring PVST+
94(3)
Topology
94(1)
Addressing Table
94(1)
Switch Port Assignment Specifications
94(1)
Objectives
94(1)
Background
95(1)
Part 1: Configure VLANs
95(1)
Part 2: Configure Spanning Tree PVST+ and Load Balancing
95(1)
Part 3: Configure PortFast and BPDU Guard
96(1)
3.3.2.2 Packet Tracer-Configuring Rapid PVST+
97(3)
Topology
97(1)
Addressing Table
97(1)
Switch Port Assignment Specifications
97(1)
Objectives
97(1)
Background
98(1)
Part 1: Configure VLANs
98(1)
Part 2: Configure Rapid Spanning Tree PVST+ Load Balancing
99(1)
Part 3: Configure PortFast and BPDU Guard
99(1)
3.3.2.3 Lab-Configuring Rapid PVST+, PortFast, and BPDU Guard
100(9)
Topology
100(1)
Addressing Table
100(1)
VLAN Assignments
100(1)
Objectives
100(1)
Background/Scenario
101(1)
Required Resources
101(1)
Part 1: Build the Network and Configure Basic Device Settings
101(1)
Part 2: Configure VLANs, Native VLAN, and Trunks
102(1)
Part 3: Configure the Root Bridge and Examine PVST+ Convergence
103(2)
Part 4: Configure Rapid PVST+, PortFast, BPDU Guard, and Examine Convergence
105(2)
Reflection
107(1)
Appendix A-Switch Configuration Commands
107(1)
Switch S1
107(1)
Switch S2
108(1)
Switch S3
108(1)
3.4.1.1 Class Activity-Documentation Tree
109(2)
Objective
109(1)
Scenario
109(1)
Resources
109(1)
Directions
109(2)
Chapter 4 EtherChannel and HSRP 111(50)
Study Guide
112(1)
Link Aggregation Concepts
112(1)
EtherChannel Advantages
112(1)
EtherChannel Operation
112(1)
Link Aggregation Configuration
113(6)
Configuring EtherChannel
114(1)
Verifying and Troubleshooting EtherChannel
115(4)
First Hop Redundancy Protocols
119(5)
Identify FHRP Terminology
119(1)
Identify the Type of FHRP
120(1)
Identify the HSRP Version
120(1)
Determine the HSRP State
120(1)
HSRP Implementation
121(1)
HSRP Verification
122(1)
HSRP Troubleshooting
122(1)
Packet Tracer Exercise 4-1: EtherChannel and HSRP Configuration
123(1)
Labs and Activities
124(1)
Command Reference
124(1)
4.0.1.2 Class Activity-Imagine This
125(1)
Objective
125(1)
Scenario
125(1)
Required Resources
125(1)
4.2.1.3 Packet Tracer-Configuring EtherChannel
126(3)
Topology
126(1)
Objectives
126(1)
Background
126(1)
Part 1: Configure Basic Switch Settings
126(1)
Part 2: Configure an EtherChannel with Cisco PAgP
127(1)
Part 3: Configure an 802.3ad LACP EtherChannel
127(1)
Part 4: Configure a Redundant EtherChannel Link
128(1)
4.2.1.4 Lab-Configuring EtherChannel
129(7)
Topology
129(1)
Addressing Table
129(1)
Objectives
129(1)
Background/Scenario
129(1)
Required Resources
130(1)
Part 1: Configure Basic Switch Settings
130(1)
Part 2: Configure PAgP
131(3)
Part 3: Configure LACP
134(1)
Reflection
135(1)
4.2.2.3 Packet Tracer-Troubleshooting EtherChannel
136(2)
Topology
136(1)
Objectives
136(1)
Background
136(1)
Part 1: Examine the Physical Layer and Correct Switch Port Mode Issues
136(1)
Part 2: Identify and Correct Port Channel Assignment Issues
137(1)
Part 3: Identify and Correct Port Channel Protocol Issues
137(1)
4.2.2.4 Lab-Troubleshooting EtherChannel
138(7)
Topology
138(1)
Addressing Table
138(1)
VLAN Assignments
138(1)
Objectives
138(1)
Background/Scenario
139(1)
Required Resources
139(1)
Part 1: Build the Network and Load Device Configurations
139(3)
Part 2: Troubleshoot EtherChannel
142(3)
4.3.3.4 Lab-Configuring HSRP
145(7)
Topology
145(1)
Addressing Table
145(1)
Objectives
146(1)
Background/Scenario
146(1)
Required Resources
146(1)
Part 1: Build the Network and Verify Connectivity
146(2)
Part 2: Configure First Hop Redundancy Using HSRP
148(3)
Reflection
151(1)
Router Interface Summary Table
151(1)
4.3.4.4 Packet Tracer-Troubleshoot HSRP
152(3)
Topology
152(1)
Addressing Table
152(1)
Objective
152(1)
Background/Scenario
152(1)
Troubleshooting Process
153(1)
Running Scripts
154(1)
PCO and Laptop1
154(1)
R1 Configuration
154(1)
R2 Configuration
154(1)
4.4.1.1 Class Activity-Linking Up
155(2)
Objective
155(1)
Scenario
155(1)
Resources
155(1)
Directions
155(2)
4.4.1.2 Packet Tracer-Skills Integration Challenge
157(4)
Topology
157(1)
Addressing Table
157(1)
Scenario
158(1)
Requirements
158(3)
Chapter 5 Dynamic Routing 161(24)
Study Guide
162(1)
Dynamic Routing Protocols
162(2)
Dynamic Routing Protocols Classification Chart
162(1)
Routing Protocols Characteristics
162(1)
Comparing Routing Protocol Characteristics
163(1)
Dynamic Routing Protocol Operation
163(1)
Distance Vector Dynamic Routing
164(3)
From Cold Start to Convergence
164(2)
Distance Vector Operation and Terminology
166(1)
Comparing RIP and EIGRP
167(1)
Link-State Dynamic Routing
167(8)
Link-State Routing Protocol Operation
168(2)
Building the Link-State Database
170(4)
Using Link-State Routing Protocols
174(1)
Labs and Activities
175(1)
Command Reference
175(1)
5.0.1.2 Class Activity-How Much Does This Cost?
176(3)
Objectives
176(1)
Scenario
176(1)
Activity 1
176(1)
Activity 2
176(1)
Required Resources
177(1)
Scenario-Part 2 Recording Matrix
177(1)
Reflection Questions
177(2)
5.2.1.6 Packet Tracer-Investigating Convergence
179(3)
Topology
179(1)
Addressing Table
179(1)
Objectives
179(1)
Background
179(1)
Part 1: View the Routing Table of a Converged Network
180(1)
Part 2: Add a New LAN to the Topology
180(1)
Part 3: Watch the Network Converge
181(1)
Suggested Scoring Rubric
181(1)
5.2.3.4 Packet Tracer-Comparing RIP and EIGRP Path Selection
182(3)
Topology
182(1)
Objectives
182(1)
Scenario
182(1)
Part 1: Predict the Path
182(1)
Part 2: Trace the Route
183(1)
Part 3: Reflection Questions
184(1)
Suggested Scoring Rubric
184(1)
Chapter 6 EIGRP 185(48)
Study Guide
186(1)
EIGRP Characteristics
186(4)
Describe Basic EIGRP Features
186(1)
Identify and Describe EIGRP Packet Types
186(1)
Identify Elements of the EIGRP Message Formats
187(3)
Configuring EIGRP for IPv4
190(5)
Configuring EIGRP with IPv4
190(3)
Verifying EIGRP with IPv4
193(2)
EIGRP Operation
195(5)
EIGRP Metric Concepts
195(1)
DUAL Concepts Exercise
196(3)
DUAL FSM Completion Exercise
199(1)
Configuring EIGRP for IPv6
200(3)
Comparing EIGRP for IPv4 and EIGRP for IPv6
200(1)
Configuring and Verifying EIGRP for IPv6
200(2)
Packet Tracer Exercise 6-1: Implement Dual Stack EIGRP
202(1)
Labs and Activities
203(1)
Command Reference
203(1)
6.0.1.2 Class Activity-Classless EIGRP
204(2)
Objectives
204(1)
Scenario
204(1)
Resources
204(1)
Reflection
204(2)
6.2.2.4 Packet Tracer-Configuring Basic EIGRP with IPv4
206(3)
Topology
206(1)
Addressing Table
206(1)
Objectives
206(1)
Background
206(1)
Part 1: Configure EIGRP
207(1)
Part 2: Verify EIGRP Routing
207(1)
Suggested Scoring Rubric
208(1)
6.2.2.5 Lab-Configuring Basic EIGRP for IPv4
209(9)
Topology
209(1)
Addressing Table
209(1)
Objectives
210(1)
Background/Scenario
210(1)
Required Resources
210(1)
Part 1: Build the Network and Verify Connectivity
210(1)
Part 2: Configure EIGRP Routing
211(1)
Part 3: Verify EIGRP Routing
211(2)
Part 4: Configure Bandwidth and Passive Interfaces
213(4)
Reflection
217(1)
Router Interface Summary Table
217(1)
6.3.4.4 Packet Tracer-Investigating DUAL FSM
218(3)
Topology
218(1)
Addressing Table
218(1)
Objectives
218(1)
Background
218(1)
Part 1: Verify EIGRP Configuration
219(1)
Part 2: Observe the EIGRP DUAL FSM
219(1)
Suggested Scoring Rubric
220(1)
6.4.3.4 Packet Tracer-Configuring Basic EIGRP with IPv6
221(2)
Topology
221(1)
Addressing Table
221(1)
Objectives
221(1)
Scenario
222(1)
Part 1: Configure EIGRP for IPv6 Routing
222(1)
Part 2: Verify EIGRP for IPv6 Routing
222(1)
6.4.3.5 Lab-Configuring Basic EIGRP for IPv6
223(8)
Topology
223(1)
Addressing Table
223(1)
Objectives
224(1)
Background/Scenario
224(1)
Required Resources
224(1)
Part 1: Build the Network and Verify Connectivity
225(1)
Part 2: Configure EIGRP for IPv6 Routing
225(1)
Part 3: Verify EIGRP for IPv6 Routing
226(2)
Part 4: Configure and Verify Passive Interfaces
228(2)
Reflection
230(1)
Router Interface Summary Table
230(1)
6.5.1.1 Class Activity-Portfolio RIP and EIGRP
231(2)
Objectives
231(1)
Scenario
231(1)
Resources
231(1)
Directions
231(1)
Reflection
232(1)
Chapter 7 EIGRP Tuning and Troubleshooting 233(52)
Study Guide
234(1)
Advanced EIGRP Configurations
234(8)
Automatic Summarization
234(2)
Default Route Propagation
236(3)
Fine-Tuning EIGRP Interfaces
239(2)
Packet Tracer Exercise 7-1: Fine-Tuning EIGRP
241(1)
Troubleshoot EIGRP
242(4)
Commands for Troubleshooting EIGRP
242(1)
Troubleshoot EIGRP Connectivity Issues
242(4)
Labs and Activities
246(1)
Command Reference
246(1)
7.0.1.2 Class Activity-EIGRP-Back to the Future
247(1)
Objectives
247(1)
Scenario
247(1)
Resources
247(1)
7.1.2.4 Packet Tracer-Propagating a Default Route in EIGRP for IPv4 and IPv6
248(2)
Topology
248(1)
Addressing Table
248(1)
Objectives
248(1)
Scenario
249(1)
Part 1: Propagate a Default Route in EIGRP for IPv4
249(1)
Part 2: Propagate a Default Route in EIGRP for IPv6
249(1)
Part 3: Verify Connectivity to Outside Hosts
249(1)
7.1.3.6 Lab-Configuring Advanced EIGRP for IPv4 Features
250(9)
Topology
250(1)
Addressing Table
250(1)
Objectives
251(1)
Background/Scenario
251(1)
Required Resources
252(1)
Part 1: Build the Network and Configure Basic Device Settings
252(1)
Part 2: Configure EIGRP and Verify Connectivity
252(1)
Part 3: Configure EIGRP for Automatic Summarization
253(1)
Part 4: Configure and Propagate a Default Static Route
254(1)
Part 5: Fine-Tune EIGRP
255(1)
Reflection
256(1)
Router Interface Summary Table
257(1)
Appendix A: Configuration Commands
257(1)
Router R1
257(1)
Router R2
258(1)
Router R3
258(1)
7.2.3.5 Packet Tracer-Troubleshooting EIGRP for IPv4
259(2)
Topology
259(1)
Addressing Table
259(1)
Scenario
259(1)
Troubleshooting Process
259(1)
Documentation Table
260(1)
7.2.3.6 Lab-Troubleshooting Basic EIGRP for IPv4 and IPv6
261(11)
Topology
261(1)
Addressing Table
261(1)
Objectives
262(1)
Background/Scenario
262(1)
Required Resources
263(1)
Part 1: Build the Network and Load Device Configurations
263(3)
Part 2: Troubleshoot Layer 3 Connectivity
266(2)
Part 3: Troubleshoot EIGRP for IPv4
268(1)
Part 4: Troubleshoot EIGRP for IPv6
269(2)
Reflection
271(1)
Router Interface Summary Table
271(1)
7.2.3.7 Lab-Troubleshooting Advanced EIGRP
272(8)
Topology
272(1)
Addressing Table
272(1)
Objectives
273(1)
Background/Scenario
273(1)
Required Resources
273(1)
Part 1: Build the Network and Load Device Configurations
274(3)
Part 2: Troubleshoot EIGRP
277(2)
Reflection
279(1)
Router Interface Summary Table
279(1)
7.3.1.1 Class Activity-Tuning EIGRP
280(2)
Objectives
280(1)
Scenario
280(1)
Resources
280(1)
Directions
280(2)
7.3.1.2 Packet Tracer-Skills Integration Challenge
282(3)
Topology
282(1)
Addressing Table
282(1)
Scenario
283(1)
Requirements
283(1)
Suggested Scoring Rubric
283(2)
Chapter 8 Single-Area OSPF 285(60)
Study Guide
286(1)
Characteristics of OSPF
286(5)
OSPF Terminology
286(1)
OSPF Concepts
287(1)
OSPF Operation
288(3)
Configuring Single-Area OSPFv2
291(6)
The Router ID
291(1)
Single-Area OSPFv2 Basic Configuration Scenario
292(3)
Adjusting OSPF Cost
295(1)
Verify the OSPF Configuration
296(1)
Configure Single-Area OSPFv3
297(4)
Comparing OSPFv2 and OSPFv3
297(1)
Configuring OSPFv3
298(1)
Verifying OSPFv3
299(1)
Packet Tracer Exercise 8-1: Implement Dual-Stacked OSPF
299(2)
Labs and Activities
301(1)
Command Reference
301(1)
8.0.1.2 Class Activity-Can Submarines Swim?
302(2)
Objectives
302(1)
Scenario
302(1)
Resources
302(1)
Reflection
302(2)
8.2.2.7 Packet Tracer-Configuring OSPFv2 in a Single Area
304(2)
Topology
304(1)
Addressing Table
304(1)
Objectives
304(1)
Background
304(1)
Part 1: Configure OSPFv2 Routing
305(1)
Part 2: Verify the Configurations
305(1)
8.2.4.5 Lab-Configuring Basic Single-Area OSPFv2
306(22)
Topology
306(1)
Addressing Table
306(1)
Objectives
306(1)
Background/Scenario
307(1)
Required Resources
307(1)
Part 1: Build the Network and Configure Basic Device Settings
307(1)
Part 2: Configure and Verify OSPF Routing
308(4)
Part 3: Change Router ID Assignments
312(2)
Part 4: Configure OSPF Passive Interfaces
314(4)
Part 5: Change OSPF Metrics
318(8)
Reflection
326(1)
Router Interface Summary Table
327(1)
8.3.3.5 Packet Tracer-Configuring Basic OSPFv3 in a Single Area
328(2)
Topology
328(1)
Addressing Table
328(1)
Objectives
328(1)
Background
329(1)
Part 1: Configure OSPFv3 Routing
329(1)
Part 2: Verify Connectivity
329(1)
8.3.3.6 Lab-Configuring Basic Single-Area OSPFv3
330(10)
Topology
330(1)
Addressing Table
330(1)
Objectives
331(1)
Background/Scenario
331(1)
Required Resources
331(1)
Part 1: Build the Network and Configure Basic Device Settings
331(1)
Part 2: Configure OSPFv3 Routing
332(4)
Part 3: Configure OSPFv3 Passive Interfaces
336(3)
Reflection
339(1)
Router Interface Summary Table
339(1)
8.4.1.1 Class Activity-Stepping Through OSPFv3
340(2)
Objectives
340(1)
Scenario
340(1)
Resources
340(1)
Directions
340(1)
Reflection
341(1)
8.4.1.2 Packet Tracer-Skills Integration Challenge
342(3)
Topology
342(1)
Addressing Table
342(1)
Background
342(1)
Requirements
343(2)
Chapter 9 Multiarea OSPF 345(34)
Study Guide
346(1)
Multiarea OSPF Operation
346(3)
Multiarea OSPF Terminology and Concepts
346(1)
Multiarea OSPF LSA Operation
347(1)
OSPF Routing Table and Types of Routes
348(1)
Configuring Multiarea OSPF
349(5)
Configuring Multiarea OSPF
349(3)
Verifying Multiarea OSPF
352(1)
Packet Tracer Exercise 9-1: Implement Dual-Stacked Multiarea OSPF
352(2)
Labs and Activities
354(1)
Command Reference
354(1)
9.0.1.2 Class Activity-Leaving on a Jet Plane
355(3)
Objective
355(1)
Scenario
355(1)
Required Resources
355(1)
Directions
356(1)
Summary
356(1)
Reflection
356(2)
9.2.2.6 Packet Tracer-Configuring Multiarea OSPFv2
358(3)
Topology
358(1)
Addressing Table
358(1)
Objectives
358(1)
Background
358(1)
Part 1: Configure OSPFv2
359(1)
Part 2: Verify and Examine Multiarea OSPFv2
359(1)
Reflection Questions
359(1)
Suggested Scoring Rubric
360(1)
9.2.2.7 Packet Tracer-Configuring Multiarea OSPFv3
361(2)
Topology
361(1)
Addressing Table
361(1)
Objectives
361(1)
Background
362(1)
Part 1: Configure OSPFv3
362(1)
Part 2: Verify Multiarea OSPFv3 Operations
362(1)
9.2.2.8 Lab-Configuring Multiarea OSPFv2
363(6)
Topology
363(1)
Addressing Table
363(1)
Objectives
363(1)
Background/Scenario
363(1)
Required Resources
364(1)
Part 1: Build the Network and Configure Basic Device Settings
364(1)
Part 2: Configure a Multiarea OSPFv2 Network
365(3)
Reflection
368(1)
Router Interface Summary Table
368(1)
9.2.2.9 Lab-Configuring Multiarea OSPFv3
369(8)
Topology
369(1)
Addressing Table
369(1)
Objectives
370(1)
Background/Scenario
370(1)
Required Resources
370(1)
Part 1: Build the Network and Configure Basic Device Settings
370(1)
Part 2: Configure Multiarea OSPFv3 Routing
371(5)
Reflection
376(1)
Router Interface Summary Table
376(1)
9.3.1.1 Class Activity-Digital Trolleys
377(2)
Objective
377(1)
Scenario
377(1)
Required Resources
377(1)
Directions
377(2)
Chapter 10 OSPF Tuning and Troubleshooting 379
Study Guide
380(1)
Advanced Single-Area OSPF Configurations
380(1)
Identify Network Types
380(1)
OSPF and Multiaccess Networks
381(7)
OSPF and Multiaccess Networks Completion Exercise
381(2)
DR/BDR Election Exercise
383(1)
Redistributing an OSPF Default Route Exercise
384(2)
Fine-Tuning OSPF Interfaces
386(1)
Packet Tracer Exercise 10-1: Fine-Tune Dual-Stacked OSPF
387(1)
Troubleshooting Single-Area OSPF Implementations
388(3)
OSPF Adjacency Issues
388(1)
Identify OSPFv2 Troubleshooting Commands
388(3)
Identify OSPFv3 Troubleshooting Commands
391(2)
Labs and Activities
393(1)
Command Reference
393(1)
10.0.1.2 Class Activity-DR and BDR Elections
394(2)
Objectives
394(1)
Scenario
394(1)
Required Resources
394(1)
Directions
394(2)
10.1.1.12 Packet Tracer-Determining the DR and BDR
396(3)
Topology
396(1)
Addressing Table
396(1)
Objectives
396(1)
Scenario
396(1)
Part 1: Examine DR and BDR Changing Roles
396(2)
Part 2: Modify OSPF Priority and Force Elections
398(1)
Suggested Scoring Rubric
398(1)
10.1.1.13 Lab-Configuring OSPFv2 on a Multiaccess Network
399(6)
Topology
399(1)
Addressing Table
399(1)
Objectives
399(1)
Background/Scenario
399(1)
Required Resources
400(1)
Part 1: Build the Network and Configure Basic Device Settings
400(1)
Part 2: Configure and Verify OSPFv2 on the DR, BDR, and DROther
401(1)
Part 3: Configure OSPFv2 Interface Priority to Determine the DR and BDR
402(2)
Reflection
404(1)
Router Interface Summary Table
404(1)
10.1.2.5 Packet Tracer-Propagating a Default Route in OSPFv2
405(2)
Topology
405(1)
Addressing Table
405(1)
Objectives
405(1)
Background
405(1)
Part 1: Propagate a Default Route
406(1)
Part 2: Verify Connectivity
406(1)
10.1.3.4 Packet Tracer-Configuring OSPFv2 Advanced Features
407(2)
Topology
407(1)
Addressing Table
407(1)
Objectives
407(1)
Scenario
408(1)
Part 1: Modify OSPF Default Settings
408(1)
Part 2: Verify Connectivity
408(1)
10.1.3.5 Lab-Configuring OSFPv2 Advanced Features
409(7)
Topology
409(1)
Addressing Table
409(1)
Objectives
409(1)
Background/Scenario
410(1)
Required Resources
410(1)
Part 1: Build the Network and Configure Basic Device Settings
410(1)
Part 2: Configure and Verify OSPF Routing
411(1)
Part 3: Change OSPF Metrics
411(2)
Part 4: Configure and Propagate a Static Default Route
413(2)
Reflection
415(1)
Router Interface Summary Table
415(1)
10.2.2.3 Packet Tracer-Troubleshooting Single-Area OSPFv2
416(2)
Topology
416(1)
Addressing Table
416(1)
Scenario
416(1)
Troubleshooting Process
417(1)
Documentation Table
417(1)
10.2.3.3 Lab-Troubleshooting Basic Single-Area OSPFv2 and OSPFv3
418(13)
Topology
418(1)
Addressing Table
418(1)
Objectives
419(1)
Background/Scenario
419(1)
Required Resources
420(1)
Part 1: Build the Network and Load Device Configurations
420(2)
Part 2: Troubleshoot Layer 3 Connectivity
422(2)
Part 3: Troubleshoot OSPFv2
424(2)
Part 4: Troubleshoot OSPFv3
426(4)
Reflection
430(1)
Router Interface Summary Table
430(1)
10.2.3.4 Lab-Troubleshooting Advanced Single-Area OSPFv2
431(6)
Topology
431(1)
Addressing Table
431(1)
Objectives
431(1)
Background/Scenario
432(1)
Required Resources
432(1)
Part 1: Build the Network and Load Device Configurations
432(3)
Part 2: Troubleshoot OSPF
435(1)
Reflection
436(1)
Router Interface Summary Table
436(1)
10.2.4.3 Packet Tracer-Troubleshooting Multiarea OSPFv2
437(4)
Topology
437(1)
Addressing Table
437(1)
Objectives
438(1)
Background/Scenario
438(1)
Part 1: Use Show Commands to Troubleshoot OSPFv2 Area 1
438(3)
10.2.4.4 Packet Tracer-Troubleshooting Multiarea OSPFv3
441(4)
Topology
441(1)
Addressing Table
441(1)
Objectives
442(1)
Background/Scenario
442(1)
Part 1: Use Show Commands to Troubleshoot OSPFv3 Area 1
442(3)
10.2.4.5 Lab-Troubleshooting Multiarea OSPFv2 and OSPFv3
445(11)
Topology
445(1)
Addressing Table
445(1)
Objectives
446(1)
Background/Scenario
446(1)
Required Resources
447(1)
Part 1: Build the Network and Load Device Configurations
447(3)
Part 2: Troubleshoot Layer 3 Connectivity
450(1)
Part 3: Troubleshoot OSPFv2
450(2)
Part 4: Troubleshoot OSPFv3
452(3)
Reflection
455(1)
Router Interface Summary Table
455(1)
10.3.1.1 Class Activity-OSPF Troubleshooting Mastery
456(2)
Objective
456(1)
Scenario
456(1)
Required Resources
456(1)
Topology Diagram
456(1)
Directions
457(1)
10.3.1.2 Packet Tracer-Skills Integration Challenge
458
Topology
458(1)
Addressing Table
458(1)
Scenario
458(1)
Requirements
458
Allan Johnson entered the academic world in 1999 after 10 years as a business owner/operator to dedicate his efforts to his passion for teaching. He holds both an MBA and an M.Ed in occupational training and development. He taught a variety of technology courses to high school students and is an adjunct instructor at Del Mar College in Corpus Christi, Texas. Since 2006, Allan has worked full time for Cisco Networking Academy in several roles. He is currently engaged as Curriculum Lead.