Theoretical Paper
Computer Organization
C Language
Data Structure
Digital Electronics
Object Oriented Programming
Discrete Mathematics
Graph Theory
Operating Systems
Software Engineering
Computer Graphics
Database Management System
Operation Research
Computer Networking
Image Processing
Internet Technologies
Micro Processor
Artificial Intelligence
Soft Computing
E-Commerce & ERP
Programming in Java
Data Mining Techniques
Cloud Computing
Big Data / Hadoop
Digital Image Processing
Practical Paper
Digital Electronics
C ++ Language
C Programming
C
Data Structure Using C, C ++
Sql & PL/Sql
Visual Basic
Unix and Shell programming
Java
J2EE
Oracle 9i
8085 Programming
Programming in Java
Internet Technologies
Artificial Intelligence
Computer Graphics
Data Mining
Cloud Computing
Big Data
Digital Image Processing
Data Structures
Computer Networks
Programming in R
Programming with Python
Machine Learning
Swift
Firebase
Android
iOS Development
Django
PHP
Arduino
Internet of Technology
IOT Projects
Pre-requisites
Analog Circuits
Analog Circuits-OP-AMP
Digital Circuits
Combinational Circuits
- Implement Half Adder/Half Subtractor/Full Adder/Full Subtractor using Logic Gates. Realize a logic function using basic/universal gates in SOP and POS form. Study the functionalities of 7483 and design a BCD adder using 7483 or equivalent.
- Design a 4 bit 2’s complement adder – subtractor unit using 7483 or equivalent and XOR gates.
- Design a 4:1 MUX using NAND gates. Study of 74153 and 74151. Design Full Adder/Subtractor using MUX
- Design magnitude comparator using basic/universal gates. Study of 7485.
- Design of two level AND – OR, NAND –NAND, NOR-NOR circuits to realize any truth table. Realize XOR in two level and multilevel.
- Design a circuit to convert BCD numbers to corresponding gray codes.
- Design a 2:4 decoder using NAND gates. Study of 74155 and 74138. Design Full Adder/Subtractor using decoders.
- Design a seven segment display unit.
- Design a parity generator/checker using basic gates.
Sequential Circuits
- 2) Design a shift register (shift left and shift right) using flip-flops. (Study the functional characteristic of IC 74194 with emphasis on timing diagram)
- Study the functional characteristics of RAM IC chip. Study of open collector and tri-state output. Horizontal and vertical expansion of RAM chips by cascading. Use 74189, 7489, 2114 or any available chip.
