Course 1562B:

Designing a Microsoft Windows 2000 Networking Services Infrastructure

Length:4 Days
Published:March 07, 2000
Language(s):English
Audience(s):IT Professionals
Level:300
Technology:Microsoft Windows 2000 Server
Type:Course
Delivery Method:Instructor-led (classroom)
About this Course
This course provides students with the information and skills needed to create a networking services infrastructure design that supports the required network applications. Each module provides a solution based on the needs of the organization. Some Microsoft Windows 2000 network solutions require a single technology, such as DHCP, to provide Internet Protocol (IP) address configuration support. In other situations, several technology options exist, such as Open Shortest Path First (OSPF), Routing Information Protocol (RIP), and Internet Group Management Protocol (IGMP), to design an IP routing scheme.
At Course Completion
At the end of the course, students will be able to:
  • Describe the attributes of a Windows 2000 networking services infrastructure design.
  • Define the design requirements for a Transmission Control Protocol/Internet Protocol (TCP/IP) solution.
  • Design a DHCP solution for automating IP configuration.
  • Design a DNS service for name resolution.
  • Evaluate WINS as a solution for name resolution.
  • Evaluate and create an Internet connectivity design using Network Address Translation.
  • Evaluate and create an Internet connectivity design using Microsoft Proxy Server 3.0.
  • Evaluate and create private network connectivity designs using Routing and Remote Access.
  • Evaluate and create a design to connect a remote user to a private network using Routing and Remote Access.
  • Evaluate and create a design to connect a remote user to a private network using Remote Authentication Dial-In User Service (RADIUS).
  • Develop a management strategy for networking services.
  • Evaluate strategies to address interaction issues for the placement of services within an infrastructure.
  • Evaluate and create designs based upon the applications in use by an organization.
Course OutlineModule 1: Windows 2000 Networking OverviewLessons
  • Introduction to Windows 2000 Network Services
  • Defining the Network Design Attributes
Lab : Analyzing a TCP/IP DesignLab : Designing a TCP/IP Solution
After completing this module, students will be able to:
  • Identify the Windows 2000 networking services.
  • Describe the attributes used to define a network services design.
  • Define the design requirements for a TCP/IP Solution.
  • Recognize the IP address structure appropriate for intranet and extranet TCP/IP functionality.
  • Describe methods available to help protect data traffic using TCP/IP.
  • Describe strategies to improve availability of TCP/IP routing structures.
  • Describe strategies for efficient IP traffic data transmission.
Module 2: Designing an Automated IP Configuration Service Using DHCPLessons
  • Identifying the Automated IP Configuration Solutions Using DHCP
  • Designing a Functional DHCP Solution
  • Securing a DHCP Solution
  • Enhancing a DHCP Design for Availability
  • Enhancing a DHCP Design for Performance
After completing this module, students will be able to:
  • Evaluate DHCP as a solution to organizational needs.
  • Evaluate and create a DHCP solution for nonrouted networks, routed networks, and various client types.
  • Select appropriate strategies to help protect DHCP services.
  • Select appropriate strategies to improve the availability of DHCP services.
  • Select appropriate strategies to improve the performance of DHCP services.
Module 3: Designing a Name Resolution Service Using DNSLessons
  • Identifying DNS as a Solution for Name Resolution
  • Establishing DNS Functionality
  • Securing a DNS Solution
  • Enhancing the DNS Design for Availability
  • Optimizing the DNS Design for Performance
After completing this module, students will be able to:
  • Evaluate DNS as a solution for name resolution.
  • Evaluate and create a DNS solution to support an organizations namespace requirements.
  • Select appropriate strategies to create security-enhanced DNS services.
  • Select appropriate strategies to enhance the availability of DNS.
  • Select appropriate strategies to improve the performance of DNS.
Module 4: Designing a NetBIOS Name Resolution Service Using WINSLessons
  • Identifying NAT as a solution for Internet Connectivity
  • Designing a Functional NAT Solution
  • Securing a NAT Solution
  • Enhancing a NAT Design for Availability
  • Optimizing the NAT Design for Performance
  • Identifying the Networking Solutions Provided by WINS
  • Designing a Functional WINS Solution
  • Securing a WINS Solution
  • Enhancing the WINS Design for Availability
  • Optimizing the WINS Design for Performance
After completing this module, students will be able to:
  • Evaluate WINS as a solution to NetBIOS name resolution.
  • Evaluate and create a functional design for baseline name resolution.
  • Select appropriate strategies to help protect a WINS solution.
  • Select appropriate strategies to improve WINS availability.
  • Select appropriate strategies to improve WINS performance.
  • Evaluate NAT as a solution for Internet connectivity.
  • Evaluate and create a functional design for baseline Internet connectivity.
  • Select appropriate strategies to help protect a NAT solution.
  • Select appropriate strategies to enhance Internet connection availability.
  • Select appropriate strategies to improve Internet connectivity performance.
Module 5: Designing Internet Connectivity Using Proxy Server 3.0Lessons
  • Identifying Proxy Server as a Solution for Internet Connectivity
  • Designing a Functional Proxy Server Solution
  • Securing a Proxy Server Solution
  • Enhancing a Proxy Server Design for Availability
  • Optimizing a Proxy Server Solution for Performance
  • Recognizing Routing as a Solution for Connectivity between Private Networks
  • Designing a Functional Routing Solution
  • Securing Private Network Connections
  • Optimizing a Router Design for Availability and Performance
After completing this module, students will be able to:
  • Evaluate Proxy Server as a solution for Internet connectivity.
  • Evaluate and create a functional design for baseline Internet connectivity.
  • Select appropriate strategies to help protect a Proxy Server solution.
  • Select appropriate strategies to enhance Proxy Server availability.
  • Select appropriate strategies to improve Proxy Server performance.
  • Evaluate Routing and Remote Access as a solution for private network connectivity.
  • Evaluate and create a functional IP router design.
  • Select appropriate strategies to help protect a routing solution.
  • Select appropriate strategies to enhance the availability of routing solutions.
  • Select appropriate strategies to improve routing performance.
Module 6: Designing Remote User ConnectivityLessons
  • Identifying Routing and Remote Access as a Solution for Remote Access
  • Designing a Functional Remote Access Solution
  • Securing a Remote Access Solution
  • Enhancing the Remote Access Design for Availability
  • Optimizing the Remote Access Design for Performance
After completing this module, students will be able to:
  • Select solutions for remote access using Routing and Remote Access.
  • Evaluate and create a functional design for remote access.
  • Select appropriate strategies to help protect remote access connections.
  • Select appropriate strategies to enhance remote access availability.
  • Select appropriate strategies to improve remote access performance.
Module 7: Designing a Remote Access Solution Using RADIUSLessons
  • Recognizing RADIUS as a Solution for Remote Access
  • Designing a Functional RADIUS Solution
  • Securing a RADIUS Design
  • Enhancing the RADIUS Design for Availability
  • Enhancing the RADIUS Design for Performance
  • Defining a Management Strategy
  • Identifying the Processes of the Strategy
  • Generating Information of the Status of Services
  • Selecting Reactive or Predictive Strategies
After completing this module, students will be able to:
  • Select solutions for remote access using RADIUS.
  • Evaluate and create a functional design for remote access using RADIUS.
  • Select appropriate strategies to help protect a RADIUS solution.
  • Select appropriate strategies to enhance the availability of RADIUS solutions.
  • Select appropriate strategies to improve RADIUS performance.
  • Define a services management strategy
  • Identify the processes of a management strategy
  • Select appropriate methods of analyzing collected data.
  • Select the appropriate response type.
Module 8: Designing Strategies for Combining ServicesLessons
  • Identifying Benefits of Designing Services
  • Combining Services in a Design
  • Securing a Design by Combining Services
  • Enhancing Availability by Combining Services
  • Optimizing Performance by Combining Services
After completing this module, students will be able to:
  • Identify the benefits of combining services
  • Describe the design considerations of combining services
  • Analyze service combinations that affect security
  • Analyze service combinations that affect availability.
  • Analyze service combinations that affect performance.
Module 9: Creating Networking Service Designs to Support ApplicationsLessons
  • Providing E-Commerce Solutions
  • Providing Joint Project Development Solutions
  • Providing Distributed Sales Solutions
  • Providing Internet Service Provider Solutions
  • Providing Virtual Office Solutions
After completing this module, students will be able to:
  • Evaluate and create a networking services design that supports e-commerce applications.
  • Evaluate and create a networking services design that supports applications shared between commercial organizations.
  • Evaluate and create a networking services design that supports a distributed sales organization.
  • Evaluate and create a networking services design that supports billing and internet connectivity of Internet Service Providers.
  • Evaluate and create a networking services design that supports the connectivity of virtual offices.
Before taking this course, the student should have completed one of the following courses:
The course materials, lectures, and lab exercises are in English. To benefit fully from our instruction, students need an understanding of the English language and completion of the prerequisites.
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