Activity 6.4.1: Basic VLSM Calculation and Addressing Design

Similar documents
Packet Tracer - Subnet Scenario 2 Topology

Ch6 Packet Tracer Skills Integration Challenge Topology Diagram

Lab: RIP v2 with VLSM

Device Interface IP Address Subnet Mask Default Gateway

6.5.1: Packet Tracer Skills Integration Challenge Activity Topology Diagram

Lab Subnetting Network Topologies (Instructor Version)

Lab : Challenge OSPF Configuration Lab. Topology Diagram. Addressing Table. Default Gateway. Device Interface IP Address Subnet Mask

Packet Tracer - Subnet Scenario 2 (Instructor Version)

Lab 9.6.2: Challenge EIGRP Configuration Lab

Chapter 9: Subnetting IP Networks

Lab 9.6.3: EIGRP Troubleshooting Lab

Lab : OSPF Troubleshooting Lab

Lab 5.6.2: Challenge RIP Configuration

Lab 2.8.2: Challenge Static Route Configuration

Lab Correcting RIPv2 Routing Problems

IP Addressing - Subnetting

Al-Mustansiriyah University Fourth Year ( )

Lab 8.4.2: Show IP Route Challenge Lab

Chapter 8: Subnetting IP networks. Introduction to Networks v5.1

Chapter 2 Review Questions

Subnetting Questions:

The Routing Table: A Closer Look

Lab 9.6.1: Basic EIGRP Configuration Lab

RIPv2. Routing Protocols and Concepts Chapter 7. ITE PC v4.0 Chapter Cisco Systems, Inc. All rights reserved. Cisco Public

Chapter 4 Reading Organizer

CCNA Exploration Network Fundamentals. Chapter 10 Planning and Cabling Networks

VLSM Workbook. Variable-Length Subnet Mask. Instructor s Edition

Which of the following describe the process identifier that is used to run OSPF on a router? (Choose two)

Chapter 3 Review Questions

Cisco CCNA Basic IP Routing Part I

Examsheets Questions and Answers

Lab Designing and Implementing a VLSM Addressing Scheme. Topology. Objectives. Background / Scenario

Lab 1.3.2: Review of Concepts from Exploration 1 - Challenge

Chapter 8: Subnetting IP Networks

Chapter 8: Subnetting IP Networks CCENT Routing and Switching Introduction to Networks v6.0

Chapter 6. Variable Length Subnet Masking (VLSM) Classless Inter-Domain Routing (CIDR) CCNA2-1 Chapter 6

EIGRP Features and Operation

Configuration Guide. For Managing EAPs via EAP Controller

CCNA 2: ROUTING PROTOCOLS AND CONCEPTS V4.0 CASE STUDY

Lab 6.4.2: Challenge Inter-VLAN Routing

VLSM Static routing. Computer networks. Seminar 5

Interconnecting Cisco Networking Devices Part 1 (ICND1) Course Overview

How to configure IPSec VPN between a CradlePoint router and a Fortinet router

Lab PC Network TCP/IP Configuration

Case Study. Routing & Switching. Cisco Networking Academy Routing and Switching: Scaling Network Case Study

Interconnecting Cisco Network Devices: Accelerated

Introduction to Routing and Packet Forwarding

PT Activity 5.6.1: Packet Tracer Skills Integration Challenge Topology Diagram

This document is exclusive property of Cisco Systems, Inc. Permission is granted to print and copy this document for non-commercial distribution and

Wireless PC Network Settings

Chapter 8. The Routing Table: A Closer Look

PT Activity 8.6.1: CCNA Skills Integration Challenge Topology Diagram

Lab 7.5.1: Basic Wireless Configuration

Packet Tracer - Connect a Router to a LAN (Instructor Version)

Module 4. Planning the Addressing Structure

ICND1 v2.0 Interconnecting Cisco Networking Devices Part 1 CCENT & Part of CCNA Rout/Switch

Lab 7.5.3: Troubleshooting the Wireless WRT300N

Lab - Designing and Implementing a Subnetted IPv4 Addressing Scheme

Lab - Configure a NIC to Use DHCP in Windows

Creating a network Bridge

Chapter 7. RIP Version 2 (RIPv2)

Lab10- Configuring EIGRP

Microsoft Hyper V Hypervisor Virtual Machine Install Guide

The following steps should be used when configuring a VLAN on the EdgeXOS platform:

Greenbow VPN Client Example

EXAM CERTIFICATION MAPPING

Book Heading. 2 Configurating Static Routing. 7 Router Security VLAN Network Router Security Network Infrastructure Design

Exam Name: CCNA - Cisco Certified Network Associate

ZyWALL USG-Series How to setup a Site-to-Site VPN connection between two ZyWALL USG series appliances. 1/8

Chapter 3 - Implement an IP Addressing Scheme and IP Services to Meet Network Requirements for a Small Branch Office

CCNA Semester 1 labs. Part 2 of 2 Labs for chapters 8 11

Chapter 5. RIP Version 1 (RIPv1) CCNA2-1 Chapter 5

Internal and External Components p. 213 Modularity p. 217 Cabling p. 219 Summary p. 222 Basic Switch Terminology p. 223 Cisco Switching Fundamentals

CCNA Boot Camp. Course Description

Introduction p. 1 Self-Assessment p. 9 Networking Fundamentals p. 17 Introduction p. 18 Components and Terms p. 18 Topologies p. 18 LAN Technologies

the larger the number of users and devices, the more broadcasts and packets each switch must handle.

Internet Protocol Addressing and Routing. Redes TCP/IP

OHLONE COLLEGE Ohlone Community College District OFFICIAL COURSE OUTLINE

CCNA 1 Chapter 6 v5.0 Exam Answers 2013

NetVanta Series (with E1/FE1 or E1/FE1 with G.703 Drop Network Interface Module)

123 Manual, LP-1522 Broadband Wireless AP/Router Client Mode Installation. 123 Manual, LP-1522 Broadband Wireless AP/Router Client Mode Installation.

ASM Educational Center (ASM) Est Cisco CCNA Routing and Switching Certification

MAC Address Filtering Setup (3G18Wn)

NETWORK LAB 2 Configuring Switch Desktop

Case Study. Routing & Switching. Cisco Networking Academy Routing and Switching: Scaling Network Case Study

Interconnecting Cisco Network Devices Part 1 v2.0 (ICND 1)

Introduction to Dynamic Routing Protocols

LP-1521 Wideband Router 123 Manual L VPN Configuration between two LP-1521`s with Dynamic IP.

2Wire IG 2700 ADSL Router. RJ45 connecting cable

Quick Guide of SimpleDDNS Settings (with UPnP)

CCRI Networking Technology I CSCO-1850 Spring 2014

Lab Troubleshooting RIP

Tutorial 9. SOLUTION Since the number of supported interfaces is different for each subnet, this is a Variable- Length Subnet Masking (VLSM) problem.

1 Training Description H3C Certification Training Building Networks for Small- and Medium-Sized Businesses (v6.0)...

Lab 1. CLI Navigation. Scenario. Initial Configuration for R1

Computer Science Department 2 nd semester- Lecture13

RIP version 1. Routing Protocols and Concepts Chapter 5. Version Cisco Systems, Inc. All rights reserved. Cisco Public 1

Smart Serial. Show interfaces. Shut down. logging synchronous

ACC1000 QUICK NETWORKING GUIDE

Table of Contents. Cisco IP Addressing and Subnetting for New Users

Transcription:

Activity 6.4.1: Basic VLSM Calculation and ing Design Topology Diagram ing Table Device Interface IP Subnet Default Gateway HQ Branch1 Branch2 All contents are Copyright 1992 2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 1 of 5

Activity 6.4.1: Basic VLSM Calculation and ing Design Learning Objectives Upon completion of this activity, you will be able to: Determine the number of subnets needed. Determine the number of hosts needed for each subnet Design an appropriate addressing scheme using VLSM. Assign addresses and subnet mask pairs to device interfaces. Examine the use of the available network address space. Scenario In this activity, you have been given the network address 192.168.1.0/24 to subnet and provide the IP addressing for the network shown in the Topology Diagram. VLSM will be used so that the addressing requirements can be met using the 192.168.1.0/24 network. The network has the following addressing requirements: The HQ LAN1 will require 50 host IP addresses. The HQ LAN2 will require 50 host IP addresses. The Branch1 LAN1 will require 20 host IP addresses. The Branch1 LAN2 will require 20 host IP addresses The Branch2 LAN1 will require 12 host IP addresses. The Branch2 LAN2 will require 12 host IP addresses. The link from HQ to Branch1 will require an IP address for each end of the link. The link from HQ to Branch2 will require an IP address for each end of the link. The link Branch1 to Branch2 will require an IP address for each end of the link. (Note: Remember that the interfaces of network devices are also host IP addresses and are included in the above addressing requirements.) Task 1: Examine the Requirements. Examine the network requirements and answer the questions below. Keep in mind that IP addresses will be needed for each of the LAN interfaces. 1. How many subnets are needed? 2. What is the maximum number of IP addresses that are needed for a single subnet? 3. How many IP addresses are needed for each of the BranchBranch1 LANs? 4. How many IP addresses are needed for each of the BranchBranch2 LANs? 5. How many IP addresses are needed for each of the WAN links between routers? 6. What is the total number of IP addresses that are needed? 7. What is the total number of IP addresses that are available in the 192.168.1.0/24 network? 8. Can the network addressing requirements be met using the 192.168.1.0/24 network? All contents are Copyright 1992 2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 2 of 5

Activity 6.4.1: Basic VLSM Calculation and ing Design Task 2: Design an IP ing Scheme Step 1: Determine the subnet information for the largest network segment or segments. In this case, the two HQ LANs are the largest subnets. Step 2: Assign subnets to HQ LANs. Start at the beginning of the 192.168.1.0/24 network. 1. Assign the first available subnet to HQ LAN1. HQ LAN1 Subnet Subnet 3. Assign the next available subnet to HQ LAN2. HQ LAN2 Subnet Subnet Step 3: Determine the subnet information for the next largest network segment or segments. In this case, the two Branch1 LANs are the next largest subnets. 30 Step 4: Assign subnet to BRANCH1 LANs. Start with the IP address following the HQ LAN subnets. 1. Assign the next subnet to Branch1 LAN1. Branch1 LAN1 Subnet Subnet 3. Assign the next available subnet to Branch1 LAN2. All contents are Copyright 1992 2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 3 of 5

Activity 6.4.1: Basic VLSM Calculation and ing Design Branch1 LAN2 Subnet Subnet Step 5: Determine the subnet information for the next largest network segment or segments. In this case, the two Branch2 LANs are the next largest subnets. Step 6: Assign subnets to BRANCH2 LANs. Start with the IP address following the Branch1 LAN subnets. 1. Assign the next subnet to the Branch2 LAN1. Fill in the chart below with the appropriate information. Branch2 LAN1 Subnet Subnet 2. Assign the next available subnet to Branch2 LAN2. 3. Fill in the chart below with the appropriate information. Branch2 LAN2 Subnet Subnet Step 7: Determine the subnet information for the links between the routers. 1. How many IP addresses are needed for each link? Step 8: Assign subnets to links. Start with the IP address following the Branch2 LAN subnets. 1. Assign the next available subnet to the link between the HQ and Branch1 routers. Link between HQ and Branch1 Subnet Subnet All contents are Copyright 1992 2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 4 of 5

Activity 6.4.1: Basic VLSM Calculation and ing Design 3. Assign the next available subnet to the link between the HQ and Branch2 routers. Link between HQ and Branch2 Subnet Subnet 5. Assign the next available subnet to the link between the Branch1 and Branch2 routers. 6. Fill in the chart below with the appropriate information. Link between Branch1 and Branch2 Subnet Subnet Task 3: Assign IP es to the Devices Assign the appropriate addresses to the device interfaces. Document the addresses to be used in the ing Table provided under the Topology Diagram. Step 1: Assign addresses to the HQ router. 1. Assign the first valid host address in the HQ LAN 1 subnet to the LAN 2. Assign the first valid host address in the HQ LAN 2 subnet to the Fao/1 LAN 3. Assign the first valid host address in the link between HQ and Branch1 subnet to the 4. Assign the first valid host address in the link between HQ and Branch2 subnet to the Step 2: Assign addresses to the Branch1 router. 1. Assign the first valid host address in the Branch1 LAN1 subnet to the LAN 2. Assign the first valid host address in the Branch1 LAN2 subnet to the LAN 3. Assign the last valid host address on the link between Branch1 and HQ subnet to the interface 4. Assign the first valid host address on the link between Branch1 and Branch2 subnet to the Step 3: Assign addresses to the Branch2 router. 1. Assign the first valid host address in the Branch2 LAN1 subnet to the LAN 2. Assign the first valid host address in the Branch 2 LAN 2 subnet to the LAN 3. Assign the last valid host address on the link between HQ and Branch2 subnet to the interface 4. Assign the last valid host address on the link between Branch1 and Branch2 subnet to the All contents are Copyright 1992 2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 5 of 5

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback