17TEL77 VLSI Lab syllabus for TE



A d v e r t i s e m e n t

Module-1 Laboratory Experiments 0 hours

Experiments can be conducted using any of the following or equivalent design tools: Cadence/Synopsis/Mentor Graphics/Microwind

Laboratory Experiments

PART - A

ASIC-DIGITAL DESIGN

1. Write Verilog Code for the following circuits and their Test Bench for verification, observe the waveform and synthesize the code with technological library with given constraints*. Do the initial timing verification with gate level simulation.

i. An inverter

ii. A Buffer

iii. Transmission Gate

iv. Basic/universal gates

v. Flip flop -RS, D, JK, MS, T v

i. Serial & Parallel adder

vii. 4-bit counter [Synchronous and Asynchronous counter]

viii. Successive approximation register [SAR]

 

PART - B

ANALOG DESIGN

1. Design an Inverter with given specifications**, completing the design flow mentioned below:

a. Draw the schematic and verify the following

i) DC Analysis

ii) Transient Analysis

b. Draw the Layout and verify the DRC, ERC

c. Check for LVS d. Extract RC and back annotate the same and verify the Design

e. Verify & Optimize for Time, Power and Area to the given constraint*

 

2. Design the

(i) Common source and Common Drain amplifier and

(ii) A Single Stage differential amplifier, with given specifications**, completing the design flow mentioned below:

a. Draw the schematic and verify the following

i) DC Analysis

ii) AC Analysis

iii) Transient Analysis b. Draw the Layout and verify the DRC, ERC

c. Check for LVS

d. Extract RC and back annotate the same and verify the Design.

 

3. Design an op-amp with given specification** using given differential amplifier Common source and Common Drain amplifier in library*** and completing the design flow mentioned below:

a. Draw the schematic and verify the following

i) DC Analysis

ii). AC Analysis

iii) Transient Analysis

b. Draw the Layout and verify the DRC, ERC

c. Check for LVS

d. Extract RC and back annotate the same and verify the Design.

 

4. Design a 4 bit R-2R based DAC for the given specification and completing the design flow mentioned using given op-amp in the library***.

a. Draw the schematic and verify the following

i) DC Analysis

ii) AC Analysis

iii) Transient Analysis

b. Draw the Layout and verify the DRC, ERC

 

5. For the SAR based ADC mentioned in the figure below draw the mixed signal schematic and verify the functionality by completing ASIC Design FLOW. [Specifications to GDS-II]

* An appropriate constraint should be given.

** Appropriate specification should be given.

*** Applicable Library should be added & information should be given to the Designer.

 

Course outcomes:

On the completion of this laboratory course, the students will be able to:

  • Write test bench to simulate various digital circuits.
  • Interpret concepts of DC Analysis, AC Analysis and Transient Analysis in analog circuits.
  • Design and simulate basic CMOS circuits like inverter, common source amplifier and differential amplifiers.
  • Use basic amplifiers and further design higher level circuits like operational amplifier and analog/digital converters to meet desired parameters.
  • Use transistors to design gates and further using gates realize shift registers and adders to meet desired parameters.

 

Conduct of Practical Examination:

  • All laboratory experiments are to be included for practical examination.
  • For examination, one question from PART-A and one question from PART-B to be set.
  • Students are allowed to pick one experiment from the lot.
  • Change of experiment is allowed only once and Marks allotted to the procedure part to be made zero.
Last Updated: Tuesday, January 24, 2023