IT131P-Networking Basics Syllabus

REVISION NO.: REVISION DATE:

COLLEGE / DEPARTMENT

:

COLLEGE OF COMPUTER AND INFORMATION SCIENCE

COURSE CODE COURSE TITLE

: :

IT131P CCNA 1: NETWORK FUNDAMENTALS

PRE-REQUISITE CO-REQUISITE CREDIT UNIT(S) CLASS SCHEDULE

: : : :

None None Three (3) Units Lecture – 3.0 hours per week Laboratory – 4.5 hours per week

COURSE DESCRIPTION

Networking basics is the first of the four courses to the Cisco Certified Network Associate (CCNA) certification. CCNA1 introduces Cisco Networking Academy Program students to the networking field. The course focuses on network network terminology and protocols, local area networks (LANs), wide area network (WANs), Open System Interconnection (OSI) model, cabling tools, router programming, Ethernet, Internet Protocol (IP) addressing, and network standards. COURSE OUTCOMES

A student completing this course should at the minimum be able to: CO1. CO2. CO3. CO4.

Identify fundamental networking terminologies, concepts, and technologies. Apply basic subnetting techniques in assigning addresses to network devices. Use appropriate devices, cables, and tools in designing a network. Apply correct configuration settings on Cisco devices.

COURSE COVERAGE

LECTURE WEEK NO.*

TOPIC MCL Mission and Vision

LEARNING OBJECTIVES

DATE COVERED**

Course Orientation Course requirements, performance evaluation, and Instructor’s policies, classroom discipline and regulations. 

1

Module 1: Living in a Network-Centric World  PC Basics  Elements of a Network  Converged Networks  Network Architecture  Providing Quality of Service (QoS) and Network Security Trends in Networking 

LO1. Identify key elements, characteristics, and components of a data network. (CO1)

Module 2: Communicating Over the Network  

2

 



3

Elements of Communication LANs, WANs, and Internetworks Network Protocols Using Layered Models: OSI and TCP/IP Models Network Addressing

Module 3: Application Layer Functionality Functionality and Protocols User Applications, Services, and  Application Layer Protocols  Client/Server Model  Peer-to-Peer (P2P) (P2P) Networking and Applications  Application Layer Protocols and Services Examples

COURSE TITLE

AY / TERM OF EFFECTIVITY

IT131P (NETWORK FUNDAMENTALS)

2015 – 2016 / 2T

LO2. Identify devices, media, and protocols necessary for successful communications. (CO1, CO3)

LO3. Identify types of networks according to scope. (CO1)

LO4. Identify Application Layer services, protocols, and applications. (CO1)

PREPARED BY

APPROVED BY

Leonnel D. de Mesa

Leonnel D. de Mesa

COURSE COORDINATOR

PROGRAM CHAIR / CLUSTE COORDINATOR

PAGE 1 OF 5

FORM OVPAA 002A

REVISION NO.: REVISION DATE:

4

Module 4: OSI Transport Layer  Roles of the Transport Layer  Communicating with Reliability – TCP Protocol  Communicating with Low Overhead – UDP Protocol

LO5. Identify the role of the Transport layers, as well as the role of its protocols, TCP and UDP. (CO1)

PRELIM COURSE ASSESSMENT Date Given:

5

6

7

8

Module 5: OSI Network Layer  Internet Protocol version 4 (IPv4)  Dividing Hosts into Groups  Routing and Routing Processes

Module 6: Addressing the Network  – IPv4  Review on Number Conversion: Binary-to-Decimal, Decimal-to-Binary  IPv4 Addresses  Addresses for Different Purposes  Assigning Addresses  Subnet Mask  Calculating Addresses – Basic Subnetting Module 7: Data Link Layer  Accessing the Media  Media Access Control Techniques  Media Access Control Addressing and Framing  Topology: Logical versus Physical

Module 8: OSI Physical Layer  Physical Layer Operations, Standards, and Principles  Signaling and Encoding  Types of Physical Media and Media Connectors MIDTERM COURSE ASSESSMENT Date Given:

9

Module 9: Ethernet  Overview of Ethernet  Historic, Legacy, and Current Ethernet  The Ethernet Frame  Ethernet Media Access Control  Hubs and Switches  Address Resolution Protocol (ARP)

10

Module 10: Planning and Cabling Networks  Making the Physical Connection in LANs  Device Interconnections  Developing and Addressing Scheme  Calculating the Subnets

11

Module 11: Configuring and Testing Your Network  Configuring Cisco Devices – IOS Basics  Applying a Basic Configuration Using Cisco IOS

COURSE TITLE

AY / TERM OF EFFECTIVITY

IT131P (NETWORK FUNDAMENTALS)

2015 – 2016 / 2T

Validated By:

LO6.

LO7.

LO8. LO9.

Program Chair/ Date

Identify the role of Network Layer in the success of end-to-end device communications. (CO1) Identify concepts pertaining to IPv4, routing, and routing processes. (CO1, CO2)

Classify by type or class a given IPv4 address. (CO2) Assign ranges of addresses for hosts, network devices, and router interfaces. (CO2)

LO10. Identify the media access control methods and topology characteristics. (CO1)

LO11. Identify basic characteristics and use of copper, fiber, and wireless network media. (CO1, CO3)

Validated By:

Program Chair/ Date

LO12. Identify terminologies and concepts relating to Ethernet, Ethernet Standards, and implementation. (CO1, CO3)

LO13. Design an addressing scheme for an internetwork. (CO2, CO3)

LO14. Configure a Cisco device using basic IOS commands. (CO4)

PREPARED BY

APPROVED BY

Leonnel D. de Mesa

Leonnel D. de Mesa

COURSE COORDINATOR

PROGRAM CHAIR / CLUSTE COORDINATOR

PAGE 2 OF 5

FORM OVPAA 002A

REVISION NO.: REVISION DATE:

 

Verify Connectivity Monitoring and Documenting Networks

FINAL COURSE ASSESSMENT 12 Date Given:

Validated By:

Program Chair/ Date

* For Summer Term, one (1) week covers two (2) weeks of a Regular Term. ** To track the progress of the course, students and professors should take note of the date when the topic was covered.

LABORATORY WEEK NO.

TOPIC

DATE COVERED

LEARNING OUTCOMES

Laboratory Class Orientation Requirements, performance evaluation, and Instructor’s policies, laboratory discipline and regulations. 

1



PC Basics PC Assembly and Disassembly



PT Exercise: Introduction to Packet Tracer



2

Topology Orientation and Building a Small Network

3

PT Exercises: Examining Packets Configuring Hosts and Services

1. 2.

Simulate a simple network using Packet Tracer. (CO2, CO3, CO4) Use basic Cisco IOS commands in configuring devices in Packet Tracer. (CO4)

3. 4.

Identify cables for use in the network. Physically cable a peer-to-peer and switched network. (CO2, CO3)

5.

Use Windows Telnet client command telnet to connect to a Cisco router. (CO2,



(CO3)



4

PT Exercises: Analyzing the Application and Transport Layers Routing IP Packets 

CO4)





Planning Subnets and Configuring IP Addresses

5 Practical (Hands-On) Exam

6

PT Exercises: Data Link Layer Issues Straight-Through and Crossover Cables

6. 7.

8.



7  – 8



Terminate Ethernet cables to produce straight-through and crossover cables. (CO2)



PT Exercise: Connecting Devices and Exploring Physical View Switched Ethernet

Subnet an address space per given requirements. (CO2) Assign appropriate addresses to interfaces and document. (CO2)

9.

Connect network devices with appropriate cables. (CO3)





9



Network Planning and Interface Configuration Configuring and Testing Your Network

10. Configure the physical and logical lab topology. (CO2, CO3) 11. Test the network for connectivity. (CO4)

FINAL PRACTICAL EXAMINATION

10  – 11

COURSE TITLE

AY / TERM OF EFFECTIVITY

IT131P (NETWORK FUNDAMENTALS)

2015 – 2016 / 2T

(CO2, CO3, CO4)

PREPARED BY

APPROVED BY

Leonnel D. de Mesa

Leonnel D. de Mesa

COURSE COORDINATOR

PROGRAM CHAIR / CLUSTE COORDINATOR

PAGE 3 OF 5

FORM OVPAA 002A

REVISION NO.: REVISION DATE:

TEXTBOOK 1. Dye, Mark, et. al, Network Fundamentals –  CCNA Exploration Companion Guide, Cisco Press 2008. REFERENCES

1. http://www.cisco.netacad.net 2. http://www.wireshark.org 3. http://www.ietf.org COURSE REQUIREMENTS

The final grade of the students is based on the following components: LECTURE GRADE (40%) MAJOR COURSE ASSESSMENTS  Preliminary  Midterm  Final OTHER LEARNING TASKS

20% 20% 20% -

-

LABORATORY GRADE (60%)  Laboratory Exercises  Hands-On Exams  Final Practical Exam

-

(60%)

(40%)

25% 35% 40%

*Learning tasks can be one or combination of the following: Assignment, Case Studies, Project, Seatwork, Research work, and Recitation.

The student is required to obtain a final grade of 60% for the combined lecture and laboratory grades in order to pass the course. The final grade of the student for lecture and laboratory is interpreted as shown on the table below. AVERAGE (%) FINAL GRADE

Above 96.00 1.00

91.51  – 96.00 1.25

87.01  – 91.50 1.50

82.51 – 87.00 1.75

78.01  – 82.50 2.00

73.51  – 78.00 2.25

69.01 – 73.50 2.50

64.51  – 69.00 2.75

60.00 – 64.50 3.00

Below 60.00 5.00

Aside from academic deficiency, other grounds to fail the course are the following:  Intellectual dishonesty (cheating and plagiarism) during examinations and other requirements; Per Section 1551 of CHED’s Manual of Regulations for Private Educational Institutions, a student who has incurred more  than 20% of the total number of school days (i.e., 5 unexcused absences) shall not be given credit to the course regardless of class standing. For further provisions of the said policy, please refer to the MCL Student Catalogue.  Other grounds as stipulated in the MCL Student Catalogue, and other relevant policies and regulations that may be promulgated from time to time. AVAILABLE COURSE MATERIALS a. Course Syllabus OTHER COURSE POLICIES

LANGUAGE OF INSTRUCTION English is the medium of instruction. Lectures, discussion, and documentation will be in English. Code switching is highly discouraged. ATTENDANCE Per Section 1551 of CHED’s Manual of Regulations for Private Educational Institutions, a student who has incurred more than twenty percent (20%) of the total number of school days shall not be given credit to the course regardless of class standing. For further provisions of the said policy, please refer to the MCL Student Catalogue. HOMEWORK, WRITTEN REPORTS AND REACTION PAPERS All homework and other assigned courseworks must be submitted on time. COURSE PORTFOLIO All exercises and requirements for the course are to be compiled b y the students as part of their por tfolio. The same must be made available for inspection by the Instructor before the end of the term. HONOR, DRESS, AND GROOMING CODE Other provisions stipulated in the MCL Student Catalogue will be enforced in and out of t he classroom. Students who have violated the dress code policy and other related offenses will not be permitted to attend classes without being cleared by the Student Affairs Office or the Guidance Office. COMMITTEE MEMBERS CLUSTER LEADER: MEMBERS:

Leonnel D. de Mesa Sara’h Y. Doniza

COURSE TITLE

AY / TERM OF EFFECTIVITY

IT131P (NETWORK FUNDAMENTALS)

2015 – 2016 / 2T

PREPARED BY

APPROVED BY

Leonnel D. de Mesa

Leonnel D. de Mesa

COURSE COORDINATOR

PROGRAM CHAIR / CLUSTE COORDINATOR

PAGE 4 OF 5

FORM OVPAA 002A

REVISION NO.: REVISION DATE:

CONSULTATION SCHEDULE

FACULTY MEMBER: E-MAIL ADDRESS: CONSULTATION HOURS: VENUE:

____________________________________________________________ ____________________________________________________________ ____________________________________________________________ ____________________________________________________________

COURSE TITLE

AY / TERM OF EFFECTIVITY

IT131P (NETWORK FUNDAMENTALS)

2015 – 2016 / 2T

PREPARED BY

APPROVED BY

Leonnel D. de Mesa

Leonnel D. de Mesa

COURSE COORDINATOR

PROGRAM CHAIR / CLUSTE COORDINATOR

PAGE 5 OF 5

FORM OVPAA 002A