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Master of Electronic Engineering (Computer Engineering)

INTRODUCTION

binary-code-1-1241810-639x903The rapid development of multimedia and information technologies is one of the main reasons that causes the computers not only being used in the industries but are widely used by individuals. This has resulted in the demand for computers and computer peripherals constantly on the rise, more so when the computer technology gets more advances. Computers not only speed up a process but they simplify the job most of the time. Large amount of data can be managed and saved easily and effectively.

Computer engineering is applied virtually in all technical and technology systems. Computers and computer–related hardware form the backbone of many operating systems today’s industries. Computer based industries that increase production and reduce labour cost are in great demand. Manufacturing of parts and devices for consumer product such televisions, hi-fi audio sets, DVD players, communication equipment, mobile phones and many others are handled by computer based companies.

Basically everyone in the various engineering disciplines have to deal with computer engineering and its applications. electronic systems and their applications. For the nation to be fully developed, a solid base with a pool of talented computer savy people has to be put in place. Such knowledgeable people come from people with work experience over the years or with higher academic pursuance. The Master of Electronic Engineering (Computer Engineering) is a excellent opportunity for anybody to upgrade their knowledge in computer engineering and at the same time to acquire a higher academic degree.

 

CURRICULUM STRUCTURE

The Master programme by Taught Course in Computer Engineering is designed to extend the knowledge and skills gained from the first degree. The curriculum covers advanced knowledge of electronics and computer engineering. Students are taught on advanced digital signal processing, advanced TCP/IP network, computer architecture and advanced electronic design. In the second semester, computer engineering subjects such as embedded design and distributed and high performance computing are included.

The subjects are deliverd on a taught course basis, along with assignments and assessments. A grade of 2.7 is the minimum to pass a subject but an overall of Cumulative Grade Point Average (CGPA) of at least 3.0 is required for the award of the Master degree. This includes the successful completion of the Master Project 2 module to be completed during the special semester.

 

COURSE CURRICULUM

SEMESTER 1

CODESUBJECTCREDITCATEGORY
MPSW 5013Research Methodology3W
MPSW 5033Engineering and Technology Management3W
MENC 5013Advanced Digital Signal Processing3P
MENE 5013Advanced Electronic Design3P
MENT 5013Advanced TCP/IP Network3P
MENC 5213Computer Architecture3K
TOTAL18

SEMESTER 2

CODESUBJECTCREDITCATEGORY
MENU 5014Project I4PS
MENC 5223Embedded Software Design3K
MENC 5233Digital VLSI Design3K
MENC 5513Mixed Analog Signal VLSI Design3E
MENC 5523IC Testing3E
MENC 5533Distributed and High Performance Computing3E
MENC 5543Embedded System Design3E
TOTAL16*

*Choose TWO (2) Electives (E) Only

SPECIAL SEMESTER

CODESUBJECTCREDITCATEGORY
MENU 5026Project II6PS
TOTAL6
GRAND TOTAL40

Category:

W: University Compulsory Subjects
P: Programme Core Subjects
K: Course Core Subjects
E: Elective Subjects
PS: Master Project