CCRI LAN Design / Management CNVT 1830 Instructor Telephone E-mail Office Hours Class Sections Credit Hours 3 Credit Hours, 2 Lecture Hours & 2 Laboratory Hours per week Instructional Material and Web Sites 1 CCRI Lesson Web Site www.netacad.com (Routing & Switching: Scaling networks 6.0) 2 Cisco Academy Assessment Web Site http://netacad.com Grading Policies Skills: Journal-Entries 5% Labs and Class Participation 10% Case Study and Presentation 10% Research Paper 10% Practical Final 30% Academic: Quizzes 15% Final 20% Course Objectives: Upon completion of the Routing & Switching: Scaling Networks, students will be able to perform the following tasks: Students who complete the Scaling Networks course will be able to perform the following functions: Determine how a router will forward traffic based on the contents of a routing table. Implement EIGRP. Implement OSPF. Implement VLANs. Implement enhanced switching technologies and first hop redundancy protocols. Design a small multi-site business network.
The goals of Routing & Switching: Scaling Networks This course describes the architecture, components, and operations of routers and switches in larger and more complex networks. Students learn how to configure routers and switches for advanced functionality. By the end of this course, students will be able to configure and troubleshoot routers and switches and resolve common issues with OSPF, EIGRP, and STP in both IPv4 and IPv6 networks. Students will also develop the knowledge and skills needed to implement a WLAN in a small-to-medium network Time Management 1. Course will meet for two (2) Lecture Hours and, two (2) laboratory hours per week of instruction. 2. Course will meet for sixty (60) hours of combined instruction and laboratory exercises. 3. Students are expected to spend an equal amount of time (60 hours) in reading the curriculum, and studying related material in addition to the required lecture/laboratory. Practical Exam 1. The practical exam will encompass a majority of concepts and procedures developed during the laboratory experiments and required readings. 2. The practical exam will be totally hands-on including routing and switching equipment as well as programs specifically related to the remote configuration of networking devices. Examinations 1. All exams, excluding the practical exam, will be a combination of multiple choice, fill-in the blank, matching as well as simulations. Other Policies 1. The student expected to complete the On-Line lessons outside of class time. 2. All quizzes must be taken in class and will not be available from the student web site 3. Late assignments will be penalized 20 points. 4. Assignments late more than one class period will not be accepted. 5. All assignments must be completed using a word processor. 6. Students are responsible to see the instructor about any work missed due to absence. 7. Students who miss a quiz must take the quiz within two classes of the original quiz date.
8. Students are expected to participate as a member of teams 9. Students must pass both the Skills based portion in addition to the Academic portion of the curriculum to pass the course. 10. Student s final grade can only raise one letter grade above the on-line final exam score based on other class assignments. 11. Students are allowed a maximum of three (3) re-takes of chapter quizzes per the semester. 12. All re-takes must be completed prior to the final exam, without exception. 13. Department policy is that if you miss the equivalent of two (2) weeks of classes your final grade will drop by one (1) letter grade.
Routing & Switching: Scaling Networks Class Lesson Exam Subjects Labs/Projects 1 1 LAN Design 2 Lab 0.0.0.1 Initializing and Reloading a Router and Switch Lab 1.0.1.2 Class Activity - Network by Design Lab 1.3.1.1 Class Activity - Layered Network Design Simulation 3 2 1 Scaling VLANs 4 Lab 2.1.4.5 Configure Extended VLANs, VTP, and DTP Lab 2.2.2.5 Troubleshooting Inter-VLAN Routing 5 3 2 STP 6 Lab 3.1.2.12 Building a Switched Network with Redundant Links Lab 3.3.2.3 Configuring Rapid PVST+, PortFast, and BPDU Guard 7 4 3 Etherchannel and HSRP 8 Lab 4.2.1.4 Configuring EtherChannel Lab 4.3.3.4 Configuring HSRP 9 5 4 Dynamic Routing 10 Lab 5.0.1.2 How Much Does This Cost? 11 6 5 EIGRP 12 Lab 6.2.2.5 Configuring Basic EIGRP for IPv4 Lab 6.4.3.5 Configuring Basic EIGRP for IPv6 13 7 6 EIGRP Tuning and Troubleshooting 14 Lab 7.1.3.6 Configuring Advanced EIGRP for IPv4 Features Lab 7.2.3.6 Troubleshooting Basic EIGRP for IPv4 and IPv6 15 Lab 7.2.3.7 Troubleshooting Advanced EIGRP 16 8 7 Single-Area OSPF 17 Lab 8.2.4.5 Configuring Basic Single-Area OSPFv2 Lab 8.3.3.6 Configuring Basic Single-Area OSPFv3 18 9 8 Multiarea OSPF 19 Lab 9.2.2.8 Configuring Multi-area OSPFv2 Lab 9.2.2.9 Configuring Multi-area OSPFv3 20 10 9 OSPF Tuning and Troubleshooting 21 Lab 10.0.1.2 DR and BDR Elections Lab 10.1.1.13 Configuring OSPFv2 on a Multiaccess Network
Class Lesson Exam Subjects Labs/Projects 22 Lab 10.1.3.5 Configuring OSFPv2 Advanced Features Lab 10.2.3.3 Troubleshooting Basic Single- Area OSPFv2 and OSPFv3 23 Lab 10.2.3.4 Troubleshooting Advanced Single-Area OSPFv2 Lab 10.2.4.5 Troubleshooting Multiarea OSPFv2 and OSPFv3 24 10 Review 25 Case Study Presentations 26 Final Exam 27 Practical Exam 28 Practical Exam 29 Practical Exam 30 Practical Exam
Detailed Chapter Outcomes Chapter /Section Goals/Objectives Chapter 1. LAN Design 1.1 Campus Wired LAN Designs Explain why it is important to design a scalable hierarchical network. 1.2 Selecting Network Devices Select network devices based on feature compatibility and network requirement. Chapter 2. Scaling VLANs 2.1 VTP, Extended VLANs, and DTP Configure enhanced inter-switch connectivity technologies. 2.2 Troubleshoot Multi-VLAN Issues Troubleshoot issues in an inter-vlan routing environment. 2.3 Layer 3 Switching Implement inter-vlan routing using Layer 3 switching to forward data in a small to medium-sized business LAN. Chapter 3. STP 3.1 Spanning Tree Concepts Build a simple switched network with redundant links. 3.2 Varieties of Spanning Tree Protocols Explain how different varieties of spanning tree protocols operate. 3.3 Spanning Tree Configuration Implement PVST+ and Rapid PVST+ in a switched LAN environment. Chapter 4. Etherchannel and HSRP 4.1 Link Aggregation Concepts Explain link aggregation operation in a switched LAN environment. 4.2 Link Aggregation Configuration Implement link aggregation to improve performance on high-traffic switch links. 4.3 First Hop Redundancy Protocols Implement HSRP. Chapter 5. Dynamic Routing 5.1 Dynamic Routing Protocols Explain the features and characteristics of dynamic routing protocols. 5.2 Distance Vector Dynamic Routing Explain how distance vector routing protocols operate. 5.3 Link-State Dynamic Routing Explain how link-state protocols operate. Chapter 6. EIGRP 6.1 EIGRP Characteristics Explain the features and characteristics of EIGRP. 6.2 Implement EIGRP for IPv4 Implement EIGRP for IPv4 in a small to medium-sized business network. 6.3 EIGRP Operation Explain how EIGRP operates in a small to medium-sized business network. 6.4 Implement EIGRP for IPv6 Implement EIGRP for IPv6 in a small to medium-sized business network. Chapter 7. EIGRP Tuning and Troubleshooting 7.1 Tune EIGRP Configure EIGRP to improve network performance 7.2 Troubleshoot EIGRP Troubleshoot common EIGRP configuration issues in a small to medium-sized business network.
Chapter /Section Chapter 8. Single-Area OSPF Goals/Objectives 8.1 OSPF Characteristics Explain how single-area OSPF operates. 8.2 Single-Area OSPFv2 Implement single-area OSPFv2. 8.3 Single-Area OSPFv3 Implement single-area OSPFv3. Chapter 9. Multiarea OSPF 9.1 Multiarea OSPF Operation Explain how multiarea OSPF operates in a small to mediumsized business network. 9.2 Configuring Multiarea OSPF Implement multiarea OSPFv2 and OSPFv3. Chapter 10. OSPF Tuning and Troubleshooting 10.1 Advanced Single-Area OSPF Configurations 10.2 Troubleshooting Single-Area OSPF Implementations Configure OSPF to improve network performance. Troubleshoot common OSPF configuration issues in a small to medium-sized business network.
Detailed Laboratory Outcomes Laboratory Lab 0.0.0.1 Initializing and Reloading a Router and Switch Lab 1.0.1.2 Class Activity - Network by Design Lab 1.3.1.1 Class Activity - Layered Network Design Simulation Lab 2.1.4.5 Configure Extended VLANs, VTP, and DTP Lab 2.2.2.5 Troubleshooting Inter-VLAN Routing Lab 3.0.1.2 Stormy Traffic Lab 3.1.2.12 Building a Switched Network with Redundant Links Lab 3.3.2.3 Configuring Rapid PVST+, PortFast, and BPDU Guard Lab 3.4.1.1 Documentation Tree Lab 4.0.1.2 Imagine This Lab 4.2.1.4 Configuring EtherChannel Lab 4.2.2.4 Troubleshooting EtherChannel Lab 4.3.3.4 Configuring HSRP Lab 4.4.1.1 Linking Up Lab 5.0.1.2 How Much Does This Cost? Lab 6.0.1.2 Classless EIGRP Lab 6.2.2.5 Configuring Basic EIGRP for IPv4 Goals/Objectives Part 1: Set Up Devices in the Network as Shown in the Topology Part 2: Initialize the Router and Reload Part 3: Initialize the Switch and Reload Explain the need to design a hierarchical network that is scalable. Explain the need to design a hierarchical network that is scalable. Part 1: Configure VTP Part 2: Configure DTP Part 3: Add VLANs and Assign Ports Part 4: Configure Extended VLAN Part 2: Troubleshoot the Inter-VLAN Routing Configuration Part 3: Verify VLAN Configuration, Port Assignment, and Trunking Part 4: Test Layer 3 Connectivity Explain the purpose of the Spanning Tree Protocol (STP) in a switched LAN environment with redundant switch links. Part 2: Determine the Root Bridge Part 3: Observe STP Port Selection Based on Port Cost Part 4: Observe STP Port Selection Based on Port Priority Part 2: Configure VLANs, Native VLAN, and Trunks Part 3: Configure the Root Bridge and Examine PVST+ Convergence Identify common STP configuration issues. Explain the operation of link aggregation in a switched LAN environment. Part 1: Configure Basic Switch Part 2: Configure PAgP Part 3: Configure LACP Part 2: Troubleshoot EtherChannel Part 1: Build the Network and Verify Connectivity Part 2: Configure First Hop Redundancy using HSRP Describe link aggregation. Explain the operation of dynamic routing protocols. Describe the basic features of EIGRP. Part 1: Build the Network and Verify Connectivity Part 2: Configure EIGRP Routing Part 3: Verify EIGRP Routing Part 4: Configure Bandwidth and Passive Interfaces
Laboratory Lab 6.4.3.5 Configuring Basic EIGRP for IPv6 Lab 6.5.1.1 Portfolio RIP and EIGRP Lab 7.0.1.2 Class Activity - EIGRP Back to the Future Lab 7.1.3.6 Configuring Advanced EIGRP for IPv4 Features Lab 7.2.3.6 Troubleshooting Basic EIGRP for IPv4 and IPv6 Lab 7.2.3.7 Troubleshooting Advanced EIGRP Lab 7.3.1.1 Class Activity - Tuning EIGRP Lab 8.0.1.2 Can Submarines Swim? Lab 8.2.4.5 Configuring Basic Single-Area OSPFv2 Lab 8.3.3.6 Configuring Basic Single-Area OSPFv3 Lab 8.4.1.1 Stepping Through OSPFv3 Lab 9.0.1.2 Leaving on a Jet Plane Lab 9.2.2.8 Configuring Multi-area OSPFv2 Goals/Objectives Part 1: Build the Network and Verify Connectivity Part 2: Configure EIGRP for IPv6 Routing Part 3: Verify EIGRP for IPv6 Routing Part 4: Configure and Verify Passive Interfaces Configure EIGRP for IPv4 in a small routed network (review). Implement advanced EIGRP features to enhance operation in a small to medium-sized business network. Part 2: Configure EIGRP and Verify Connectivity Part 3: Configure EIGRP for Automatic Summarization Part 4: Configure and Propagate a Default Static Route Part 5: Fine-Tune EIGRP Configure bandwidth utilization for EIGRP. Configure the hello interval and hold timer for EIGRP. Part 2: Troubleshoot Layer 3 Connectivity Part 3: Troubleshoot EIGRP for IPv4 Part 4: Troubleshoot EIGRP for IPv6 Part 2: Troubleshoot EIGRP Implement advanced EIGRP features to enhance operation in a small- to medium-sized business network. This chapter will focus on some advanced methods to tune EIGRP network configurations. This modeling activity will prove your mastery of some of these concepts. Explain the process by which link-state routers learn about other networks. Part 2: Configure and Verify OSPF Routing Part 3: Change Router ID Assignments Part 4: Configure OSPF Passive Interfaces Part 5: Change OSPF Metrics Part 2: Configure and Verify OSPFv3 Routing Part 3: Configure OSPFv3 Passive Interfaces Explain the process by which link-state routers learn about other networks. Explain the operation of multiarea OSPF to enable internetworking in a small- to medium-sized business network. Part 2: Configure a Multi-area OSPFv2 Network
Laboratory Lab 9.2.2.9 Configuring Multi-area OSPFv3 Lab 9.3.1.1 Digital Trolleys Lab 10.0.1.2 DR and BDR Elections Lab 10.1.1.13 Configuring OSPFv2 on a Multiaccess Network Lab 10.1.3.5 Configuring OSFPv2 Advanced Features Lab 10.2.3.3 Troubleshooting Basic Single- Area OSPFv2 and OSPFv3 Lab 10.2.3.4 Troubleshooting Advanced Single-Area OSPFv2 Lab 10.2.4.5 Troubleshooting Multiarea OSPFv2 and OSPFv3 Lab 10.3.1.1 OSPF Troubleshooting Mastery Goals/Objectives Part 2: Configure Multi-area OSPFv3 Routing Use CLI commands to verify operational status of a multiarea OSPF network. Modify the OSPF interface priority to influence the Designated Router (DR) and Backup Designated Router (BDR) election. Part 2: Configure and Verify OSPFv2 on the DR, BDR, and DROther Part 3: Configure OSPFv2 Interface Priority to Determine the DR and BDR Part 2: Configure and Verify OSPF Routing Part 3: Change OSPF Metrics Part 4: Configure and Propagate a Static Default Route Part 2: Troubleshoot Layer 3 Connectivity Part 3: Troubleshoot OSPFv2 Part 4: Troubleshoot OSPFv3 Part 2: Troubleshoot OSPF Part 2: Troubleshoot Layer 3 Connectivity Part 3: Troubleshoot OSPFv2 Part 4: Troubleshoot OSPFv3 Explain the process and tools used to troubleshoot a singlearea OSPF network.