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EMT 251/4 : EMT 251/4 : Introduction to IC DesignIntroduction to IC Design
LECTURERSMR. Muhammad Imran Ahmad ([email protected])
Prof NS Murthy ([email protected])
TEACHING ENGINEERSEn Mohd Fisol ([email protected])
En Mat Nor([email protected])
TimetableLecture Monday (5-6pm) DKR1 Friday (3.30 – 5.30) pm DKR3
Lab Monday G4 (9-11am) IC Design Lab,
KWSP Tuesday G4 (2-4am) IC Design Lab, KWSP Wednesday G3 (2-4pm) IC Design Lab,
KWSP Friday G3 (10-12am) IC Design Lab, KWSP
Course EvaluationCourse EvaluationCourse work (50%)
◦ Test x 2 (10%)◦ Lab works (30 %)
Lab test x 2 = 10 % Mini-project = 20%
Viva 10% Demo 5% Poster 5%
◦ Assignment x 3 (10%)Final Exam 50%
Mini – project (20%)Mini – project (20%)Group of 2 students.Design a given project from
circuit design to GDS II File◦Poster◦Demo◦Viva
ExaminationExaminationTotal of 50%Answer 5 questionsTwo (2) parts:-
◦Part A : answer all 4 questions Will cover all topics ( design, calculation,
understanding and etc.)
◦Part B : choose 1 from 2 questions Will test your understanding (essay
answer)
Teaching PlanTeaching Plan
View Teaching plan
CO – Course ObjectivesCO – Course Objectives
Course Outcome (CO) Delivery Mode Possible AssessmentCO1: Students will be able to design and simulate logic circuits at transistor level using schematic entry as well as netlists format.
Lecture, tutorial, demo, lab and mini project.
Test, exam, viva and mini project report.
CO2: Students will be able to produce the layout design of a circuit based on the design rules specified.
Lecture, tutorial, demo, lab and mini project.
Test, exam, viva and mini project report.
CO3: Students will be able to analyze CMOS transistor characteristics.
Lecture and tutorial. Exam.
CO4: Students will be able present their mini project individually in a viva session.
Demo. Viva and mini project report.
Text BookText Book◦CMOS VLSI; A Design Perspective,
Wolf, Rabeay, Jan M. Weste, Neil H.E. Compiled by Norina Idris, Norhawati
Ahmad, Rizalafande Che Ismail, Muammar Mohamad Isa, Siti Zarina Md naziri, Muhammad Imran Ahmad
Pearson, 2008.
Other References Other References Kang, Sung-Mo and Leblebici, Yusuf, CMOS Digital
Integrated Circuits- Analysis and Design, McGraw-Hill, 2005.
Hodges, David A. et al, Analysis and Design of Digital Integrated Circuits in Deep Submicron Technology, Mc-Graw-Hill, 2004.
Neil H.E. Weste and Daid Harris, CMOS VLSI Design- A Circuits and Systems Perspective, Prentice Hall, 2005.
Uyemura, J. P., Introduction to VLSI Circuits and Systems, John Wiley, 2002.
◦ Rabaey, J. M. et al, Digital Integrated Circuits – A Design Perspective, 2nd Edition, Prentice Hall, 2002.
WHAT IS IC?WHAT IS IC?
ICs on PCB
IC Package
Inside ICWafer
=
=
IC Layout
IC Schematic
Why VLSI?Why VLSI?Integration improves the design
◦Lower parasitics = higher speed◦Lower power consumption◦Physically smaller
Integration reduces manufacturing cost - (almost) no manual assembly
◦ Fit straight line on semilog scale
Moore's Law
THE BEAUTY OF IC THE BEAUTY OF IC DESIGNDESIGN
The 1The 1stst computer (1946) computer (1946)
Personal ComputerPersonal ComputerThe 60’s point of viewThe 60’s point of view
Scientific calculatorScientific calculator60’s design60’s design
Evolution in IC designEvolution in IC design19661st IC circuitMotorolaConsist of 3
input transistor
Evolution of IC DesignEvolution of IC Design1971Intel 40041000 MOS
transistor1 MHz operation