Overview

CCNP Optimizing Converged Networks(ONT 642-845) Lab Portfolio   David Kotfila • Joshua Moorhouse • Ross G. Wolfson, CCIE® No. 16696   CCNP Optimizing Converged Networks (ONT 642-845) Lab Portfolio provides you with opportunities for hands-on practice with optimizing and providing effective QoS techniques in converged networks operating voice, wireless, and security applications. Topics also include implementing a VoIP network, specific mechanisms for implementing the DiffServ QoS model, AutoQoS, wireless security, and basic wireless management.   Those preparing for the Optimizing Converged Cisco Networks (ONT 642-845) certification exam should work through this book cover-to-cover. Or, if you need to quickly review configuration examples, you can go directly to the relevant chapter.   CCNP Optimizing Converged Networks (ONT 642-845) Lab Portfolio includes 21 Labs built to support v5 of the Optimizing Converged Networks course within the Cisco® Networking Academy® curriculum, providing ample opportunity to practice. 2 Challenge and Troubleshooting Labs have been added to the core curriculum labs to test your mastery of the topics. 1 Case Study to give you a taste of what is involved in a fully functioning network, covering all the technologies taught in this course. Even if you do not have the actual equipment to configure these more complex topologies, it is worth reading through these labs to expand your thinking into more complex networking solutions.   David Kotfila, CCNP®, CCAI, is the director of the Cisco Networking Academy at Rensselaer Polytechnic Institute (RPI), Troy, New York.   Joshua Moorhouse, CCNP, recently graduated from Rensselaer Polytechnic Institute with a bachelor of science degree in computer science, where he also worked as a teaching assistant in the Cisco Networking Academy. He currently works as a network engineer at Factset Research Systems.   Ross Wolfson, CCIE® No. 16696, recently graduated from Rensselaer Polytechnic Institute with a bachelor of science degree in computer science. He currently works as a network engineer at Factset Research Systems.   Use this Lab Portfolio with:   CCNP ONT Official Exam Certification Guide ISBN-10: 1-58720-176-3 ISBN-13: 978-1-58720-176-9   CCNP ONT Portable Command Guide ISBN-10: 1-58720-185-2 ISBN-13: 978-158720-185-1   This book is part of the Cisco Networking Academy Series from Cisco Press®. Books in this series support and complement the Cisco Networking Academy curriculum.  

Full Product Details

Author:   David Kotfila ,  Joshua Moorhouse ,  Ross Wolfson
Publisher:   Pearson Education (US)
Imprint:   Cisco Press
Dimensions:   Width: 27.40cm , Height: 1.80cm , Length: 21.80cm
Weight:   0.662kg
ISBN:  

9781587132162

ISBN 10:   1587132168
Pages:   288
Publication Date:   03 April 2008
Audience:   College/higher education ,  Tertiary & Higher Education
Format:   Paperback
Publisher's Status:   Out of Print
Availability:   In Print  
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.

Table of Contents

Introduction xiv   Chapter 1 Describing Campus Network Requirements 1 Lab 1-1: Optimizing Converged Networks Lab Configuration Guide 1     Chapters 3, 4, 5: Quality of Service Scenarios 2     Chapter 6: Wireless Scenarios 5   Chapter 2 Cisco VoIP Implementations 7 Lab 2-1: Configure CME Using the CLI and Cisco IP Communicator (2.6.1) 7     Scenario 7     Step 1: Configure Addressing 7     Step 2: Configure Router Telephony Service 9     Step 3: Create Directory Numbers 10     Step 4: Create Phones 11     Step 5: Install Cisco IP Communicator 12     Step 6: Run Cisco IP Communicator 16     Step 7: Establish a Call from Host A to Host B 19     Step 8: Change the Codec Being Used 21   Chapter 3 Introduction to IP QoS 25 Lab 3-1: Preparing for QoS (3.6.1) 25     Overview 26     Step 1: Preliminaries 27     Step 2: Create Basic Pagent IOS and TGN Configurations 27     Step 3: Store Basic Pagent Configurations 33     Step 4: Create Advanced Pagent IOS, TGN, and NQR Configurations 34     Step 5: Store Advanced Pagent Configurations 38     Step 6: Display Traffic Statistics 38     Basic Pagent Configurations 40         IOS Configuration on R4: Stored in flash:basic-ios.cfg 40         TGN Configuration on R4: Stored in flash:basic-tgn.cfg 41        IOS Configuration on ALS1: Stored in flash:basic.cfg 41     Pagent Configurations 42         IOS Configuration on R4 (TrafGen): Stored in flash:advanced-ios.cfg 42         TGN Configuration on R4 (TrafGen): Stored in flash:advanced-tgn.cfg 43         IOS Configuration on ALS1: Stored in flash:advanced.cfg 43     NETLAB-Compatible Advanced Pagent Configurations 44         IOS Configuration on R4: Stored in flash:advanced-ios.cfg 44         TGN Configuration on R4: Stored in flash:advanced-tgn.cfg 45         IOS Configuration on ALS1: Stored in flash:advanced.cfg 45         NQR Configuration 46     Sample Advanced Pagent Configuration 46         R1 47         R2 47         R3 47         R4 48         R4 NQR 48 Lab 3-2: Installing SDM (3.6.2) 49     Scenario 49     Step 1: Lab Preparation 49     Step 2: Prepare the Router for SDM 49     Step 3: Configure Addressing 50     Step 4: Extract SDM on the Host 52     Step 5: Install SDM on the PC 55     Step 6: Run SDM from the PC 59     Step 7: Install SDM to the Router 61     Step 8: Run SDM from the Router 66     Step 9: Monitor an Interface in SDM 68 Lab 3-3: Configuring QoS with SDM (3.6.3) 69     Scenario 69     Preparation 69     Step 1: Configure Physical Interfaces 70     Step 2: Configure Routing with EIGRP 71     Step 3: Connect to R1 Using SDM 71     Step 4: Use the SDM QoS Wizard 72     Step 5: Verify QoS Operation with SDM 77   Chapter 4 DiffServ QoS Model 79 Lab 4-1: Default Queuing Tools (4.11.1) 79     Scenario 79     Preparation 79     Step 1: Configure Addressing 80     Step 2: Configure EIGRP AS 1 83     Step 3: Contrast Interface Queuing Strategies 85     Step 4: Verify and Change Queuing Modes 87     Step 5: Modify Default Queuing Settings 93 Lab 4-2: Intermediate Queuing Tools (4.11.2) 95     Scenario 95     Preparation 95     Step 1: Configure the Physical Interfaces 96     Step 2: Configure EIGRP AS 1 97     Step 3: Configure Custom Queuing 98     Step 4: Configure Priority Queuing 104     Challenge 107 Lab 4-3: TCP Header Compression (4.11.3) 108     Scenario 108     Step 1: Configure Addressing 108     Step 2: Enable Telnet Access on R2 108     Step 3: Enable TCP Header Compression 108     Step 4: Verify TCP Header Compression 109 Lab 4-4: Comparing Queuing Strategies (4.11.4) 111     Scenario 111     Preparation 111     Step 1: Configure Addressing and Routing 112     Step 2: Create NQR Configuration for Testing Purposes 113     Step 3: Test FIFO Queuing 115     Step 4: Test Weighted Fair Queuing 115     Step 5: Test Custom Queuing 116     Step 6: Test Priority Queuing 116 Lab 4-5: Class-Based Queuing and NBAR (4.11.5) 117     Scenario 117     Preparation 117     Step 1: Configure the Physical Interfaces 118     Step 2: Configure EIGRP AS 1 119     Step 3: Configure NBAR Protocol Discovery 120     Step 4: Classify and Mark Packets 122     Step 5: Shape Traffic and Queue with CBWFQ and LLQ 127     Challenge: Verifying IP Precedence 131 Lab 4-6: Class-Based Marking, Shaping, and Policing (4.11.6) 133     Scenario 133     Preparation 133     Step 1: Configure the Physical Interfaces 134     Step 2: Configure Routing 135     Step 3: Mark Packets with DSCP 135     Step 4: Configuring Class-Based Shaping 138     Step 5: Configure Nested Service Policies 140     Step 6: Configure Traffic Policing 142     Step 7: Configure Class-Based TCP Header Compression 143 Lab 4-7: WAN QoS Tools (4.11.7) 145     Scenario 145     Preparation 145     Step 1: Configure the Physical Interfaces 146     Step 2: Configure Multilink PPP 147     Step 3: Configure Multilink PPP LFI 151     Step 4: Configure Routing 152     Step 5: Configure Generic Traffic Shaping 153     Step 6: Configure Committed Access Rate Policing 153 Lab 4-8: Shaping and Policing (4.11.8) 155     Scenario 155     Preparation 155     Step 1: Configure Physical Interfaces and Routing 156     Step 2: Configure NQR on R4 156     Step 3: Configure Traffic Policing 158     Step 4: Configure Traffic Shaping 158     NETLAB-Compatible NQR Configuration 159 Lab 4-9: QoS Pre-classify (4.11.9) 160     Scenario 160     Preparation 161     Step 1: Configure the Physical Interfaces 161     Step 2: Configure Static Routing 162     Step 3: Configure the GRE Tunnel 163     Step 4: Configure Routing 164     Step 5: Enable the QoS Pre-classify Feature 164 Lab 4-10: Quality of Service Challenge Lab 167 Lab 4-11: Quality of Service Troubleshooting 168     Initial Configurations 169   Chapter 5 AutoQoS 173 Lab 5-1: AutoQoS (5.3.1) 173     Scenario 173     Preparation 174     Step 1: Configure the Physical Interfaces 174     Step 2: Configure EIGRP AS 1 176     Step 3: Configure AutoQoS 177     Step 4: Configure AutoQoS with DSCP 184   Chapter 6 Wireless Scalability 187 Option 1: Using the External WLAN Controller 187 Option 2: Using the WLAN Controller Network Module 189 Lab 6-1a: Configuring an External WLAN Controller (6.6.1a) 192     Scenario 192     Step 1: Device Preparation 192     Step 2: Basic Switch Configuration 192     Step 3: Switched Virtual Interface Configuration 194     Step 4: DHCP Configuration 194     Step 5: Spanning Tree PortFast Configuration 196     Step 6: Host Configuration and Verification 196     Step 7: IP Routing Configuration and Verification 198     Step 8: WLAN Controller Wizard 199     Step 9: Telnet and HTTP Access to the WLAN Controller 200 Lab 6-1b: Configuring a WLAN Controller Installed in a Router (6.6.1b) 202     Scenario 202     Step 1: Device Preparation 202     Step 2: Basic Switch Configuration 203     Step 3: Subinterface Configuration for R1 and the WLAN Controller 203     Step 4: DHCP Configuration 204     Step 5: Spanning Tree PortFast Configuration 205     Step 6: Host Configuration and Verification 206     Step 7: IP Routing Verification 208     Step 8: WLAN Controller Configuration 208     Step 9: Telnet and HTTP Access to the WLAN Controller 211 Lab 6-2: Configuring a WLAN Controller Through the Web Interface (6.6.2) 213     Step 1: Basic Device Configuration 213     Step 2: WLAN Controller Monitor Page 213     Step 3: Configure Logical Interfaces on the WLAN Controller 215     Step 4: Configure WLANs 220 Lab 6-3: Configuring a Wireless Client (6.6.3) 225     Step 1: Aironet Installation Program 226     Step 2: Configuring Profile and SSID 230     Step 3: Diagnostics 233 Lab 6-4: Configuring WPA Security with Preshared Keys (6.6.4) 235     Scenario 236     Preparation 236     Step 1: Connect to the WLC from the Host 237     Step 2: Assign a VLAN to a WLAN 238     Step 3: Connect to WLAN Using Cisco Aironet Desktop Utility 244 Lab 6-5: Configuring LEAP (6.6.5) 248     Scenario 248     Preparation 249     Step 1: Install CiscoSecure ACS 250     Step 2: Set Up ACS for LEAP 254     Step 3: Connect to the WLC from the Management Host 260     Step 4: Set Up a RADIUS Server 261     Step 5: Assign a WLAN to a VLAN 263     Step 6: Configure the Wireless Client 267   Chapter 7 Case Study 271 Case Study: QoS and MLPPP 271

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Author Information

David Kotfila , CCNP, CCAI, is the director of the Cisco Academy at Rensselaer Polytechnic Institute (RPI), Troy, New York. Under his direction, 350 students have received their CCNA, 150 students have received their CCNP, and 8 students have obtained their CCIE. David is a consultant for Cisco, working as a member of the CCNP assessment group. His team at RPI has authored the four new CCNP lab books for the Academy program. David has served on the National Advisory Council for the Academy program for four years. Previously he was the senior training manager at PSINet, a Tier 1 global ISP. When David is not staring at his beautiful wife Kate, or talking with his two wonderful children, Chris and Charis, he likes to kayak, hike in the mountains, and lift weights.   Joshua Moorhouse, CCNP, recently graduated from Rensselaer Polytechnic Institute with a B.S. in computer science; he also worked at RPI as a teaching assistant in the Cisco Networking Academy. He currently works as a network engineer at Factset Research Systems in Norwalk, Connecticut. Josh enjoys spending time with his wife Laura, his family, and friends.   Ross G. Wolfson, CCIE No. 16696, recently graduated from Rensselaer Polytechnic Institute with a B.S. in computer science. He currently works as a network engineer at Factset Research Systems. Ross enjoys spending time with his friends, running, and biking.

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