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CIW Internetworking Professional Curriculum CBT Training CDs |
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Summary: CIW Internetworking Professional Curriculum CBT Training CDs
Review: Course Overview
This curriculum presents learners with an overview of TCP/IP network technology. This curriculum will provide an outline of the infrastructure of the Internet and the place of TCP/IP within this infrastructure. It will also cover the IP model, TCP/IP functions and services, features of network management, and the features and functions of IPv6.
# This curriculum consists of five courses: Course 87006 CIW Internetworking Professional Part 1: TCP/IP Fundamentals
# Course 87007 CIW Internetworking Professional Part 2: IP Model
# Course 87008 CIW Internetworking Professional Part 3: TCP/IP Functions and Services
# Course 87009 CIW Internetworking Professional Part 4: Network Management
# Course 87010 CIW Internetworking Professional Part 5: IPv6
Learn To
See individual course descriptions for specific course objectives and scope.
Audience
The audience for this curriculum will apply to learners involved in defining network architecture, identifying infrastructure components, and monitoring and analyzing network performance. They will also be responsible for the design and management of enterprise TCP/IP networks. Prerequisite knowledge for this curriculum is that learners must have CIW Foundations certification or equivalent experience. CIW accepts CompTIA's iNET+ certification in place of the CIW Foundations course. This course is mapped to the Master CIW Administrator Certification Program and covers exam number 1D0-460. This curriculum can also be taken by individuals who want to improve their job skills.
Deployment Options
e-Learning
Accreditation
NASBA credits: 4 CPE Credits Per Course
CEU credits: 3.50 CEUs
Language Options
US English
Total Learning Time
30 to 40 hours
CIW Internetworking Professional Part 1: TCP/IP Fundamentals Training CD
Course Overview
This is the first course in a five part series that presents students with a broad overview of TCP/IP network technology. This course will provide students an outline of the infrastructure of the Internet and the place of TCP/IP within this infrastructure. It will describe the features of TCP/IP architecture and Internet addressing, and cover the techniques for troubleshooting TCP/IP networks. This course will also introduce students to the network environment, and the principles of VoIP and Multicast IP.
Learn To
# Identify features of the Transmission Control Protocol/Internet Protocol (TCP/IP) that support network interoperability.
# Identify stages in the evolution of the Internet.
# Identify functions of the main Internet authorities.
# Establish a baseline using Sniffer Basic.
# Generate a graph to compare network traffic with a baseline.
# Identify the causes of performance degradation.
Audience
The audience for this course will apply to students involved in defining network architecture, identifying infrastructure components, and monitoring and analyzing network performance. They will also be responsible for the design and management of enterprise TCP/IP networks. Prerequisite knowledge for this curriculum is that students must have CIW Foundations certification or equivalent experience. CIW accepts CompTIA's iNET+ certification in place of the CIW Foundations course. This course is mapped to the Master CIW Administrator Certification Program and covers exam number 1D0-460.
Deployment Options
e-Learning
Accreditation
NASBA credits: 4 CPE Credits
CEU credits: 0.70 CEUs
Language Options
US English
Total Learning Time
6 to 8 hours
Objectives
Unit 1: TCP/IP Overview 2 - 3 hours
# Identify features of the TCP/IP that support network interoperability.
# Identify stages in the evolution of the Internet.
# Identify functions of the main Internet authorities.
# Identify the layers within the Open Systems Interconnection Reference Model (OSI/RM).
# Identify features of packets.
# Identify the functions of the OSI layer protocols.
# Identify the features of routable and nonroutable protocols.
# Identify functions of the specialized serial interface protocols.
# Identify features of the Internet architecture model.
# Identify functions of Requests for Comments (RFCs) protocols.
# Identify characteristics of Internet Protocol (IP) addressing.
# Identify characteristics of the IP address classes.
# Identify features of IP broadcast addresses.
# Identify features of IP system addresses.
# Identify features of reserved IP addressing.
# Identify functions of subnet masks.
# Sequence the steps to generate a custom subnet mask.
# Identify the stages in the process for deriving Classless Interdomain Routing (CIDR) notation and calculating subnet masks.
Unit 2: Troubleshooting and Internet Protocols 4 - 5 hours
# Establish a baseline using Sniffer Basic.
# Generate a graph to compare network traffic with a baseline.
# Identify the causes of performance degradation.
# Identify guidelines for the configuration of system hardware.
# Identify functions of Unix and Windows 2000 commands that are used to determine the performance of an operating system.
# Identify factors that affect network performance.
# Access file transfer times by using Windows 2000.
# Identify issues to be considered regarding Client Server application elements.
# Identify features of Pulse Code Modulation (PCM).
# Identify features of IP gateway devices.
# Identify shortcomings of Voice over Internet Protocol (VoIP) and possible solutions.
# Identify features of multicasting.
# Identify features of the Internet Group Messaging Protocol (IGMP).
# Identify features of multicast routing protocols.
# Identify features of the Multicast Backbone (Mbone).
CIW Internetworking Professional Part 2: IP Model Training CD
Course Overview
This is the second course in a five part series that presents students with instruction in the subject of the IP model. It covers the features and functions of several layers in the OSI model - incluading the network access layer, the Internet layer, and the transport layer. The student will also learn how to use various TCP/IP troubleshooting tools.
Learn To
# Identify features of Ethernet.
# Locate a hardware address in Windows 2000.
# Identify the command used to locate a hardware address in Linux.
# Identify functions of network files.
# Identify the location of TCP/IP information in Linux and Windows 2000.
# Identify features of Internet Control Message Protocol (ICMP) error and query messages.
Audience
The audience for this course will apply to students involved in defining network architecture, identifying infrastructure components, and monitoring and analyzing network performance. They will also be responsible for the design and management of enterprise TCP/IP networks. Prerequisite knowledge for this curriculum is that students must have CIW Foundations certification or equivalent experience. CIW accepts CompTIA's iNET+ certification in place of the CIW Foundations course. This course is mapped to the Master CIW Administrator Certification Program and covers exam number 1D0-460. In addition, students should have taken the first course in the series (course 87006).
Deployment Options
e-Learning
Accreditation
NASBA credits: 4 CPE Credits
CEU credits: 0.70 CEUs
Language Options
US English
Total Learning Time
6 to 8 hours
Objectives
Unit 1: Network Layers 2 - 3 hours
# Identify features of Ethernet.
# Locate a hardware address in Windows 2000.
# Identify the command used to locate a hardware address in Linux.
# Locate an Ethernet address in Windows 95/98.
# Identify features of an Ethernet header.
# Identify prerequisites for installing a protocol analyzer on Linux.
# Capture Ethernet headers by using Ethereal.
# Capture Ethernet headers by using Sniffer Basic.
# Identify features of the Address Resolution Protocol (ARP).
# View the ARP cache in Linux.
# View the ARP cache in Windows 2000.
# Identify functions of the Reverse Address Resolution Protocol (RARP).
# Identify functions of the Internet Protocol (IP) for network routing.
# Match the components of an IP header with their functions.
# Capture IP packets by using Ethereal.
# Capture IP packets by using Sniffer Basic.
# Match the Transmission Control Protocol (TCP) header components with their functions.
# Sequence the steps to establish and disconnect a TCP connection.
# Capture TCP packets by using Ethereal.
# Capture TCP packets by using Sniffer Basic.
# Match the components of a User Datagram Protocol (UDP) header with their functions.
# Capture UDP packets by using Ethereal.
# Capture UDP packets by using Sniffer Basic.
# Identify features of TCP and UDP ports.
Unit 2: TCP/IP Troubleshooting 4 - 5 hours
# Identify functions of network files.
# Identify the location of TCP/IP information in Linux and Windows 2000.
# Identify functions of network troubleshooting commands.
# Identify functions of the name and address troubleshooting commands.
# Identify features of Internet Control Message Protocol (ICMP) error and query messages.
CIW Internetworking Professional Part 3: TCP/IP Functions and Services Training CD
Course Overview
This is the third course in a five part series that will teach students about TCP/IP functions and services. This course will cover Internet addressing, including the domain name system. It will also cover the interaction between Unix and DNS and Windows 2000 and DNS. In addition, this course covers the BOOTstrap (BOOTP) and DHCP (DHCP) protocols, routing principles and protocols.
Learn To
# Identify characteristics of the hosts file.
# Modify the Linux hosts file.
# Modify the Windows 2000 hosts file.
# Identify functions of the BOOTP.
# Identify functions of the DHCP.
# Match the components of the DHCP header with their functions.
# Identify the method to determine the route to a local or remote destination node by using Windows 2000.
# Type the command to determine a local or remote destination node by using Linux
Audience
The audience for this course will apply to students involved in defining network architecture, identifying infrastructure components, and monitoring and analyzing network performance. They will also be responsible for the design and management of enterprise TCP/IP networks. Prerequisite knowledge for this curriculum is that students must have CIW Foundations certification or equivalent experience. CIW accepts CompTIA's iNET+ certification in place of the CIW Foundations course. This course is mapped to the Master CIW Administrator Certification Program and covers exam number 1D0-460.
Deployment Options
e-Learning
Accreditation
NASBA credits: 4 CPE Credits
CEU credits: 0.70 CEUs
Language Options
US English
Total Learning Time
6 to 8 hours
Objectives
Unit 1: Internet Addressing 3 hours
# Identify characteristics of the hosts file.
# Modify the Linux hosts file.
# Modify the Windows 2000 hosts file.
# Identify features of Domain Name System (DNS).
# Identify characteristics of DNS server types.
# Identify functions of DNS records.
# Identify the syntax of the named.local file.
# Identify the syntax of the forward zone file.
# Identify the syntax of the reverse zone file.
# Identify the syntax of the DNS initialization file.
# Identify the syntax of the DNS client configuration file.
# Install a Windows 2000 primary DNS server.
# Identify functions of the Dynamic Domain Name Server (DDNS).
# Sequence the steps to create a DNS server zone.
# Create a DNS record.
# Configure a Windows 2000 DNS client.
Unit 2: TCP/IP Hosts: Address Allocation 1 - 2 hours
# Identify functions of the BOOTP.
# Identify functions of the Dynamic Host Configuration Protocol (DHCP).
# Match the components of the DHCP header with their functions.
# Identify the syntax used to configure a Linux DHCP server.
# Identify the syntax used to create a Linux DHCP reservation.
# Install the DHCP service on Windows 2000.
# Identify the configuration settings to configure a DHCP server in Windows 2000, using the New Scope Wizard.
# Configure a DHCP client in Windows 2000.
# Configure a DHCP server to allocate a default gateway in Windows 2000.
Unit 3: Routing Principles 2 - 3 hours
# Identify functions of routing.
# Identify the method to determine the route to a local or remote destination node by using Windows 2000.
# Type the command to determine a local or remote destination node by using Linux.
# Identify the stages in the routing process.
# Configure a static routing table by using Windows 2000.
# Configure a static routing table by using Linux.
# Sequence the stages of the routing process at the network and datalink layers.
# Compare the features of interior and exterior routing protocols.
# Identify differences between Routing Information Protocol version 1 (RIPv1) and Routing Information Protocol version 2 (RIPv2) headers.
# Identify characteristics of the Routing Information Protocol (RIP).
# Identify functions of the Open Shortest Path First (OSPF) protocol.
# Identify differences between the Exterior Gateway Protocol (EGP) and the Border Gateway Protocol (BGP).
# Identify functions of Classless Interdomain Routing.
CIW Internetworking Professional Part 4: Network Management Training CD
Course Overview
This is the fourth course in a five part series that will provide instruction on the features of network management. This course will provide an overview of management functional areas and the network management model. It will also introduce the features and functions of SNMP. The student will learn how to install and configure SNMP and SNMP agents. This course will also introduce the features and functions of MIB as well as the functions of SNMP in an enterprise. Finally, the student will also receive instruction on SNMPv2 and SNMPv3.
Learn To
# Identify features of network management.
# Identify features of management functional areas.
# Identify the components of the network management model.
# Identify features of the Management Information Base (MIB) tree.
# Match MIB data types with their features.
# Match MIB groups with their features.
Audience
The audience for this course will apply to students involved in defining network architecture, identifying infrastructure components, and monitoring and analyzing network performance. They will also be responsible for the design and management of enterprise TCP/IP networks. Prerequisite knowledge for this curriculum is that students must have CIW Foundations certification or equivalent experience. CIW accepts CompTIA's iNET+ certification in place of the CIW Foundations course. This course is mapped to the Master CIW Administrator Certification Program and covers exam number 1D0-460.
Deployment Options
e-Learning
Accreditation
NASBA credits: 4 CPE Credits
CEU credits: 0.70 CEUs
Language Options
US English
Total Learning Time
6 to 8 hours
Objectives
Unit 1: Network Management Fundamentals 3 - 4 hours
# Identify features of network management.
# Identify features of management functional areas.
# Identify the components of the network management model.
# Identify functions of the network management station (NMS).
# Identify features of network management architectures.
# Identify features of the Simple Network Management Protocol (SNMP).
# Identify the stages in the development of SNMP.
# Identify the components of the Structure of Management Information (SMI).
# Identify the commands used to carry out SNMP tasks.
# Match the components of SNMP architecture with their functions.
# Identify functions of common SNMP applications.
# Install a SNMP NMS and agent on Linux.
# Identify features of Ping ProPack as an NMS application on Windows 2000.
# Identify functions of SNMP agents.
# Identify features of a SNMP agent in Windows 2000 server.
# Identify the operating systems that support SNMP agents.
# Identify the system information provided by the snmpwalk command.
# Install a SNMP agent on Windows 2000.
Unit 2: MIB and SNMP 3 - 4 hours
# Identify features of the MIB tree.
# Match MIB data types with their features.
# Match MIB groups with their features.
# Identify the commands used to access the MIB variables.
# Query an instance of a scalar MIB variable in Linux.
# Query a MIB table in Linux.
# Identify how to query MIB groups in Ping ProPack in Windows 2000.
# Query a MIB table in Windows 2000.
# Identify functions of the Simple Network Management Protocol version 1 (SNMPv1) message format.
# Identify drawbacks of the SNMPv1.
# Gain access to accounts on a system without having administrative access by using the snmputil command.
# Change a community name.
# Identify functions of the Remote Network Monitoring Management Information Base (RMON).
# Identify features of the Simple Network Management Protocol version 2 (SNMPv2).
# Identify SNMPv2 alterations to the Protocol Data Unit (PDU).
# Identify enhancements made to SNMPv2 security.
# Identify features of SNMPv2 transport protocols.
# Identify features of the Simple Network Management Protocol version 3 (SNMPv3).
CIW Internetworking Professional Part 5: IPv6 Training CD
Course Overview
This is the last course in a five part series that provides instruction on the features and functions of IPv6. This course will begin with a comparison of IPv4 and IPv6. Students will learn to examine the IPv6 header and extension headers, as well as the IPv6 address architecture. This course covers IPv6 routing and security, reduced network management with IPv6, and transitioning to IPv6. Finally, the course will also take a brief look at mobile IP.
Learn To
# Identify the proposals for the Internet Protocol version 6 (IPv6).
# Identify the differences between the Internet Protocol version 4 (IPv4) and the IPv6 header.
# Identify the obsolete IPv4 fields.
# Identify the features of the IPV6 aggregatable routing hierarchy.
# Identify features of multicast routing.
# Identify functions of the IPv6 routing protocols.
Audience
The audience for this course will apply to students involved in defining network architecture, identifying infrastructure components, and monitoring and analyzing network performance. They will also be responsible for the design and management of enterprise TCP/IP networks. Prerequisite knowledge for this curriculum is that students must have CIW Foundations certification or equivalent experience. CIW accepts CompTIA's iNET+ certification in place of the CIW Foundations course. This course is mapped to the Master CIW Administrator Certification Program and covers exam number 1D0-460.
Deployment Options
e-Learning
Accreditation
NASBA credits: 4 CPE Credits
CEU credits: 0.70 CEUs
Language Options
US English
Total Learning Time
6 to 8 hours
Objectives
Unit 1: IPv6 Overview 2 - 3 hours
# Identify the proposals for the IPv6.
# Identify the differences between the IPv4 and the IPv6 header.
# Identify the obsolete IPv4 fields.
# Match the revised and new IPv6 fields with their functions.
# Capture IPv4 packets for comparison with IPv6.
# Match the components of the IPv6 header with their functions.
# Match the IPv6 extension headers with their functions.
# Sequence the order of the IPv6 extension headers.
# Install the IPv6 stack for Windows 2000.
# Install IPv6 parsers for Network Monitor.
# Identify the differences between IPv4 and IPv6 packets.
# Identify the characteristics of IPv6 addresses.
# Identify guidelines for abbreviating an IPv6 address.
# Identify guidelines for expanding an IPv6 address.
# Identify functions of IPv6 address types.
# Match the components of the Aggregatable Global Unicast address with their functions.
# Match the special unicast addresses with their functions.
# Match the components of the IPv6 multicast address with their functions.
# Identify the differences between a fixed-length address and a variable-length address.
Unit 2: IPv6 Functions and Services 4 - 5 hours
# Identify the features of the IPv6 aggregatable routing hierarchy.
# Identify features of multicast routing.
# Identify functions of the IPv6 routing protocols.
# Identify features of IPv6 security.
# Identify functions of the Neighbor Discovery (ND) protocol.
# Match the Internet Control Message Protocol version 6 (ICMPv6) error messages with their error types.
# Identify characteristics of stateless autoconfiguration.
# Identify characteristics of stateful configuration.
# Identify features of Address Resolution Protocol (ARP) in IPv6.
# Monitor the ND protocol in Windows 2000 by using Network Monitor.
# Identify features of the Simple Internet Transition (SIT) mechanism.
# Identify features of dual Internet Protocol (IP) stacks.
# Create Domain Name System (DNS) records for IPv6.
# Identify the requirements for connecting to the 6Bone.
# Identify the components of Mobile IP entities.
# Sequence the steps to discover and register a foreign agent.
# Sequence the stages in the Mobile IP tunneling process.
# Match the Mobile IP extension headers with their functions.
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