Difference between revisions of "NAD810"

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(Subject Description)
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= NAD810 - Network Administration =
 
= NAD810 - Network Administration =
  
= Professor =
+
== Professor ==
  
 
SYA810 is taught by [[User:Cheping|Raymond Chan]] (Winter 2009)
 
SYA810 is taught by [[User:Cheping|Raymond Chan]] (Winter 2009)
  
= Weekly Outline =
+
== Weekly Outline ==
  
 
See the [[Winter 2009 NAD810 Weekly Schedule]] for specific dates and topics.
 
See the [[Winter 2009 NAD810 Weekly Schedule]] for specific dates and topics.
  
= Subject Description =
+
== Subject Description ==
  
 
This subject deals with the issues raised when connecting one computer to another to enable automatic data exchange. Students will learn how to build and configure firewall-protected intranets, Beowulf class clusters, fault-tolerant web farms, Unix print/file servers using Samba for WINDOWS clients, Unix gateways using IP masquerading, Linux routers, wireless LANs, advanced routing techniques and virtual private networks.
 
This subject deals with the issues raised when connecting one computer to another to enable automatic data exchange. Students will learn how to build and configure firewall-protected intranets, Beowulf class clusters, fault-tolerant web farms, Unix print/file servers using Samba for WINDOWS clients, Unix gateways using IP masquerading, Linux routers, wireless LANs, advanced routing techniques and virtual private networks.
  
== Credit Status ==
+
=== Credit Status ===
 
1 credit in the LUX program.
 
1 credit in the LUX program.
  
== Prerequisites ==
+
=== Prerequisites ===
 
NAD710
 
NAD710
  
== Specific Outcomes ==
+
=== Specific Outcomes ===
  
 
Upon successful completion of this subject students should be able to:
 
Upon successful completion of this subject students should be able to:
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** Virtual Private Networks
 
** Virtual Private Networks
  
Topic Outline:
+
=== Topic Outline ===
  
 
* Overview of TCP/IP - 5%
 
* Overview of TCP/IP - 5%
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** RVSP
 
** RVSP
  
== Modes Of Instruction ==
+
=== Modes Of Instruction ===
  
 
* 2 hours interactive lecture per week, and 2 hours lab time per week  
 
* 2 hours interactive lecture per week, and 2 hours lab time per week  
  
== Prescribed Text ==
+
=== Prescribed Text ===
  
 
* Linux Quick Fix Notebook by Harrison; ISBN 0-131-86150-6, Prentice Hall
 
* Linux Quick Fix Notebook by Harrison; ISBN 0-131-86150-6, Prentice Hall
  
== Reference Material ==
+
=== Reference Material ===
  
 
* Linux Documentation Project
 
* Linux Documentation Project
 
* Advanced Guide to Linux Networking and Security by Sawicki; isbn 1-4188-3539-0, Thomson Publishing
 
* Advanced Guide to Linux Networking and Security by Sawicki; isbn 1-4188-3539-0, Thomson Publishing
  
== Supplies ==
+
=== Supplies ===
  
 
* None
 
* None
  
== Promotion Policy ==
+
=== Promotion Policy ===
  
 
To obtain a credit in this subject, a student must:
 
To obtain a credit in this subject, a student must:
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* Achieve a grade of 55% or better on the overall course
 
* Achieve a grade of 55% or better on the overall course
  
== Modes of Evaluation ==
+
=== Modes of Evaluation ===
 +
 
 
* 30% One Midterm Test
 
* 30% One Midterm Test
 
* 30% Assignments/Labs
 
* 30% Assignments/Labs
 
* 40% Final Exam
 
* 40% Final Exam

Revision as of 15:20, 1 December 2008

Note! This information is under revision.

NAD810 - Network Administration

Professor

SYA810 is taught by Raymond Chan (Winter 2009)

Weekly Outline

See the Winter 2009 NAD810 Weekly Schedule for specific dates and topics.

Subject Description

This subject deals with the issues raised when connecting one computer to another to enable automatic data exchange. Students will learn how to build and configure firewall-protected intranets, Beowulf class clusters, fault-tolerant web farms, Unix print/file servers using Samba for WINDOWS clients, Unix gateways using IP masquerading, Linux routers, wireless LANs, advanced routing techniques and virtual private networks.

Credit Status

1 credit in the LUX program.

Prerequisites

NAD710

Specific Outcomes

Upon successful completion of this subject students should be able to:

  • Install and Configure Network Services
    • Domain Name Service (DNS)
    • Network File Server (NFS)
    • Network Information Services (NIS)
  • Understand Networking Protocols such as
    • TCP/IP
    • DHCP
    • BOOTP
    • FTP/TFTP
    • TELNET
    • HTTP
    • LDAP
    • RSVP
  • Build, Configure and Maintain
    • Firewall-protected intranets
    • Beowulf-class Computer Clusters
    • Samba print/file servers
    • Unix gateways and routers
    • Wireless local area networks
    • Virtual Private Networks

Topic Outline

  • Overview of TCP/IP - 5%
  • Installing networking hardware and configuring networking software - 5%
  • Creating an Intranet - 10%
    • Assigning IP addresses
    • Connecting the machines
    • Network configuration
    • Testing/Debugging the network
  • Setting up a gateways and routers - 10%
    • IP Masquerading
    • Using iptables
    • SOCKS
    • DNS
  • Connecting Windows 9x/NT to Linux - 15%
    • NetBIOS
    • SMB
    • Samba
    • VNC
  • Building and configuring a Beowulf cluster - 20%
    • Diskless clients
    • Etherboot
    • ROCK and OSCAR clusters
  • Implementing a Wireless LAN - 5%
    • access point configuration
    • PC card issues
  • Building and configuring a Virtual Private network - 15%
    • SSH
    • IPSEC
  • Advanced IP routing - 15%
    • Policy routing
    • QoS
    • RVSP

Modes Of Instruction

  • 2 hours interactive lecture per week, and 2 hours lab time per week

Prescribed Text

  • Linux Quick Fix Notebook by Harrison; ISBN 0-131-86150-6, Prentice Hall

Reference Material

  • Linux Documentation Project
  • Advanced Guide to Linux Networking and Security by Sawicki; isbn 1-4188-3539-0, Thomson Publishing

Supplies

  • None

Promotion Policy

To obtain a credit in this subject, a student must:

  • Achieve a grade of 55% or better on the final exam
  • Satisfactorily complete all assignments
  • Achieve a weighted average of 55% or better for the tests and final exam
  • Achieve a grade of 55% or better on the overall course

Modes of Evaluation

  • 30% One Midterm Test
  • 30% Assignments/Labs
  • 40% Final Exam