Syllabus
Overview of CMOS device fundamentals (DC Characteristics, AC Characteristics, Processing overview). CMOS inverters, Static and Dynamic characteristics, Dynamic behavior, transition time, Propagation Delay, Power Consumption. MOS Circuit Layout & Simulation, Stick diagrams, Layout design rules, MOS device layout, Transistor layout, Inverter layout, circuits layout Combinational logic, Static MOS, Complementary MOS, Ratioed logic, Pass Transistor logic, Complex logic circuits, DSL, DCVSL, Transmission gate logic. Dynamic MOS design, Dynamic logic families and their performance. MOS Memory design, Design of ROM, SRAM and DRAM cells. and sequential CMOS logic, Modelling of interconnect wires. Optimization of designs with respect to cost, reliability, performance, and power dissipation. Sequential circuits:-timing considerations, and clocking approaches. Design of large system blocks, including arithmetic, interconnect, memories, and programmable logic arrays.
Introduction to Hardware Description Language Layout Generation and Verification: Behavioral, Structural, Physical level.
Text Books
Same as Reference
References
1. Digital Integrated Circuits, Anantha P. Chandrakasan and Jan M. Rabaey, PHI Learning
2. CMOS VLSI Design, David Harris & Neil Wester, Pearson Education, India.
3. Analysis and Design of Digital Integrated Circuits, David Hodges, Horace Jackson, Resve Saleh, McGraw-Hill Series in Electrical and Computer Engineering.
4. CMOS Digital Integrated Circuits, Sung Mo Kang, Yusuf Leblebici, McGraw-Hill Higher Education.
5. Verilog -HDL A guide to Digital Design and Synthesis, Pearson, 2003.
Course Outcomes (COs):
CO1: Learning basics of different logic families, electrical characteristics of digital logic gate, CMOS implementation of logic gate and fundamentals of CMOS device characteristics of inverter, design the layout of CMOS logic gates using MOSIS rules.
CO2: Design and analyze the characteristics of combinational circuits using different logic styles and different parameters and methods to obtain Delay.
CO3: Model interconnects and to design and analyze sequential circuits using different logic styles and optimizations in terms of performance parameter, and learning to design digital circuits using hardware description language.
CO4: Designing and analyzing large system blocks such as ALU, memories