Exam Details
| Subject | vlsi system design | |
| Paper | ||
| Exam / Course | b.e.(electronics and instrumentation engineering) | |
| Department | ||
| Organization | SETHU INSTITUTE OF TECHNOLOGY | |
| Position | ||
| Exam Date | May, 2017 | |
| City, State | tamil nadu, pulloor |
Question Paper
Reg. No.
B.E. B.Tech. DEGREE EXAMINATION, MAY 2017
Seventh Semester
Electronics and Instrumentation Engineering
01UEI704 VLSI SYSTEM DESIGN
(Regulation 2013)
Duration: Three hours Maximum: 100 Marks
Answer ALL Questions
PART A (10 x 2 20 Marks)
1. What are the second order effects in a MOS transistor?
2. What are the advantages of Twin-tub process?
3. State the significance of Lambda based rule.
4. Indicate the different symbols used for various regions in stick diagram.
5. Distinguish absolute clock skew and relative clock skew.
6. List the few applications of Tally circuits.
7. What factors determine the overall size of a PLA?
8. Mention some of PLDs.
9. List out the operators in VHDL.
10. Write the behavioral VHD L code for a full adder.
Question Paper Code: 31574
2
31574
PART B x 16 80 Marks)
11. Show the various components of nMOS transistor model. Elaborate the process and steps involved in CMOS Fabrication of VLSI system technology. Or Explain the operation of MOS transistor in depletion mode and enhancement mode.
12. Explain the DC characteristics and switching characteristics of a CMOS inverter. Or Determine the pull-up to pull down ratio for an nMOS inverter driven by another nMOS inverter.
13. What is Barrel shifter and discuss its SHIFT-1 and SHIEFT-2 operation. Discuss about dynamic CMOS. Or Explain the design and working of carry look ahead adder.
14. Explain the NMOS NAND-NAND PLA realization with a neat stick diagram. Discuss about the design of complex PLA. Or Explain in detail about planning placement and routing techniques of FPGA.
15. Write a VHDL code to realize the behavioral model and data flow model of a full adder. Or
Write the VHDL code for Finite State Machine using behavioral and structural modeling.
B.E. B.Tech. DEGREE EXAMINATION, MAY 2017
Seventh Semester
Electronics and Instrumentation Engineering
01UEI704 VLSI SYSTEM DESIGN
(Regulation 2013)
Duration: Three hours Maximum: 100 Marks
Answer ALL Questions
PART A (10 x 2 20 Marks)
1. What are the second order effects in a MOS transistor?
2. What are the advantages of Twin-tub process?
3. State the significance of Lambda based rule.
4. Indicate the different symbols used for various regions in stick diagram.
5. Distinguish absolute clock skew and relative clock skew.
6. List the few applications of Tally circuits.
7. What factors determine the overall size of a PLA?
8. Mention some of PLDs.
9. List out the operators in VHDL.
10. Write the behavioral VHD L code for a full adder.
Question Paper Code: 31574
2
31574
PART B x 16 80 Marks)
11. Show the various components of nMOS transistor model. Elaborate the process and steps involved in CMOS Fabrication of VLSI system technology. Or Explain the operation of MOS transistor in depletion mode and enhancement mode.
12. Explain the DC characteristics and switching characteristics of a CMOS inverter. Or Determine the pull-up to pull down ratio for an nMOS inverter driven by another nMOS inverter.
13. What is Barrel shifter and discuss its SHIFT-1 and SHIEFT-2 operation. Discuss about dynamic CMOS. Or Explain the design and working of carry look ahead adder.
14. Explain the NMOS NAND-NAND PLA realization with a neat stick diagram. Discuss about the design of complex PLA. Or Explain in detail about planning placement and routing techniques of FPGA.
15. Write a VHDL code to realize the behavioral model and data flow model of a full adder. Or
Write the VHDL code for Finite State Machine using behavioral and structural modeling.
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- advanced sensor
- analog circuits
- analog communication
- analytical instruments
- antenna and wave propagation
- application of instrumentation in aerospace and navigation
- applied digital signal processing
- biomedical instrumentation
- circuit theory
- communication engineering
- computer architecture and organization
- control engineering
- data communication and networks
- data structures and algorithm analysis
- data structures and algorithms
- digital communication
- digital electronics
- digital electronics and design
- digital image processing
- digital signal processing
- electrical circuits and networks
- electrical machines
- electrical measurements
- electromagnetic fields
- electronic circuits
- electronic measurements and instrumentation
- embedded and real time systems
- environmental monitoring instruments
- environmental science and engineering
- fibre optics and laser instruments
- high speed networks
- industrial data networks
- industrial electronics
- industrial instrumentation – ii
- industrial instrumentation-i
- information theory and coding
- instrumentation for power plants
- instrumentation system design
- laser and fiber optics instrumentation
- linear control engineering
- linear integrated circuits and applications
- logic and distributed control systems
- microprocessors and interfacing
- microprocessors microcontrollers and applications
- microwave engineering
- mobile ad-hoc networks
- modern electronic instrumentation
- nano electronics
- numerical methods
- optical communication and networks
- principles of electrical machines
- probability and random processes
- process control instrumentation
- project management and finance
- qualitative and quantitative aptitude
- real time embedded systems architecture
- reliability and safety engineering
- robotics and automation
- satellite communication principles and applications
- sensors and transducers
- signals and systems
- thermodynamics and fluid mechanics
- transforms and partial differential equations
- transmission lines and waveguides
- value education and human rights
- vlsi design
- vlsi system design
- wireless communication systems
- wireless sensor networks