OEC353 Syllabus - Vlsi Design - 2021 Regulation - Open Elective | Anna University
OEC353 Syllabus - Vlsi Design - 2021 Regulation - Open Elective | Anna University
OEC353 |
VLSI DESIGN |
L T P C |
|---|
3003
OBJECTIVES:
● Understand the fundamentals of IC technology components and their characteristics.
● Understand combinational logic circuits and design principles.
● Understand sequential logic circuits and clocking strategies.
● Understand Interconnects and Memory Architecture.
● Understand the design of arithmetic building blocks
● Understand combinational logic circuits and design principles.
● Understand sequential logic circuits and clocking strategies.
● Understand Interconnects and Memory Architecture.
● Understand the design of arithmetic building blocks
UNIT I |
MOS TRANSISTOR PRINCIPLES |
9 |
|---|
MOS logic families (NMOS and CMOS), Ideal and Non Ideal IV Characteristics, CMOS devices. MOS(FET) Transistor DC transfer Characteristics ,small signal analysis of MOSFET.
UNIT II |
COMBINATIONAL LOGIC CIRCUITS |
9 |
|---|
Propagation Delays, stick diagram, Layout diagrams, Examples of combinational logic design, Elmore’s constant, Static Logic Gates, Dynamic Logic Gates, Pass Transistor Logic, Power Dissipation.
UNIT III |
SEQUENTIAL LOGIC CIRCUITS AND CLOCKING STRATEGIES |
9 |
|---|
Static Latches and Registers, Dynamic Latches and Registers, Pipelines, Timing classification of Digital Systems, Synchronous Design, Self-Timed Circuit Design
UNIT IV |
INTERCONNECT, MEMORY ARCHITECTURE |
9 |
|---|
Interconnect Parameters – Capacitance, Resistance, and Inductance, Logic Implementation using Programmable Devices (ROM, PLA, FPGA), Memory Architecture and Building Blocks.
UNIT V |
DESIGN OF ARITHMETIC BUILDING BLOCKS |
9 |
|---|
Arithmetic Building Blocks: Data Paths, Adders-Ripple Carry Adder, Carry-Bypass Adder, Carry Select Adder, Carry-Look Ahead Adder, Multipliers, Barrel Shifter, power and speed tradeoffs.
TOTAL: 45 PERIODS
OUTCOMES: Upon successful completion of the course the student will be able to
CO1: Understand the working principle and characteristics of MOSFET
CO2: Design Combinational Logic Circuits
CO3: Design Sequential Logic Circuits and Clocking systems
CO4: Understand Memory architecture and interconnects
CO5: Design of arithmetic building blocks.
CO2: Design Combinational Logic Circuits
CO3: Design Sequential Logic Circuits and Clocking systems
CO4: Understand Memory architecture and interconnects
CO5: Design of arithmetic building blocks.
TEXT BOOKS:
1. Jan D Rabaey, Anantha Chandrakasan, “Digital Integrated Circuits: A Design Perspective”, PHI, 2016.(Units II, III IV and V).
2. Neil H E Weste, Kamran Eshranghian, “Principles of CMOS VLSI Design: A System Perspective,” Addison Wesley, 2009.( Units - I).
2. Neil H E Weste, Kamran Eshranghian, “Principles of CMOS VLSI Design: A System Perspective,” Addison Wesley, 2009.( Units - I).
REFERENCES:
1. D.A. Hodges and H.G. Jackson, Analysis and Design of Digital Integrated Circuits, International Student Edition, McGraw Hill 1983
2. P. Rashinkar, Paterson and L. Singh, "System-on-a-Chip Verification-Methodology and Techniques", Kluwer Academic Publishers,2001
3. Samiha Mourad and Yervant Zorian, “Principles of Testing Electronic Systems”, Wiley 2000
4. M. Bushnell and V. D. Agarwal, "Essentials of Electronic Testing for Digital, Memory and Mixed-Signal VLSI Circuits", Kluwer Academic Publishers,2000
2. P. Rashinkar, Paterson and L. Singh, "System-on-a-Chip Verification-Methodology and Techniques", Kluwer Academic Publishers,2001
3. Samiha Mourad and Yervant Zorian, “Principles of Testing Electronic Systems”, Wiley 2000
4. M. Bushnell and V. D. Agarwal, "Essentials of Electronic Testing for Digital, Memory and Mixed-Signal VLSI Circuits", Kluwer Academic Publishers,2000
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