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It3 4 by Zaheer Abbas Aghani
This course introduces students to digital logic circuits and design. Students will learn about basic logic elements like AND, OR, NAND and NOR gates and combinational and sequential logic circuits. Implementation of digital circuits using MSI, LSI and VLSI technology is covered. Topics include number systems, Boolean algebra, combinational logic analysis and design, sequential logic, programmable logic devices, VHDL, and CAD tools. The course involves 4 hours of lectures and 2 hours of practicals per week. Evaluation includes a theory exam worth 100 marks and oral and term work components. Suggested experiments involve studying logic gates, ALUs, comparators, registers, counters, and implementing combinational and sequential circuits in VH
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It3 4 by Zaheer Abbas Aghani
- 1. Digital Logic Designand Applications CLASS S.E ( INFORMATION TECHNOLOGY) SEMESTER III HOURS PER LECTURES : 04 WEEK TUTORIALS : PRACTICALS : 02 HOURS MARKS EVALUATION THEORY 3 100 SYSTEM: PRACTICAL ORAL - 25 TERM WORK - 25 A basic course in digital electronic logic circuitry. This course will introduce the students to digital logic circuits. Basic logic elements such as AND, OR, NAND and NOR gates will be introduced and characterized. Combinational and Sequential logic circuits will be designed and analyzed in the lab. Implementation of digital circuits with the help of MSI ,LSI and VLSI technology is covered. 1. Number Systems: Decimal, Binary, Octal and Hexadecimal number system and conversion, Binary weighted codes and inter-conversion, Binary arithmetic including 1’s Complement and 2’s Complement, Error detection and correction codes. 2. Boolean Algebra and Combinational Logic: Boolean Algebra Theorems, Realization of switching functions using logic gates, canonical logic forms, sum of product & product of sums, Karnaugh maps, Simplification of expressions, Variable Entered Maps ,Quine-McCluskey minimization techniques, Mixed logic combinational circuits and multiple output functions. 3. Analysis and Design of Combinational Logic: Introduction to combinational circuit, Decoder, Encoder, Priority encoder, Multiplexers as function generators, Binary adder, Subtracter, BCD adder, Binary comparator, Arithmetic and logic units. 4. Sequential Logic: Sequential circuits, Flip-flops, Clocked and edge triggered flip-flops, Timing specifications , Asynchronous and synchronous counters, Counter design with state equations, Registers, Bidirectional Shift registers.
- 2. 5. Programmable LogicDevices: PLAs ,PALs, CPLD, FPGA Architectures, Finite state machines- Mealy and Moore design, Introduction to VHDL, Implementation of above combinational and sequential circuits using VHDL, Examples of system design applications like Washing machine, Candy Vending machine, traffic lights 6. CAD Tools: Introduction to Computer Aided Synthesis and Optimization, Circuit models, Synthesis, Optimization, Computer Aided Simulation, Verification, Testing, and Design for Testability RECCOMENDED BOOKS 1. Raj Kamal, “Digital Systems Principle and Design” ,Pearson Education 2. Balabaniam ,Carlson, “Digital Logic Design Principles”Wiley Publications 3. Morris Mano, “Digital Design”,Third Edition, Pearson edition 4. R P Jain " Modern Digital Electronics", McGraw Hill. 5. D. P. Leach, A. P. Malvino, "Digital Principles and Applications", TMH. 6 Tocci, Digital systems: Principles and applications, Pearson 7. J. Bhasker, “A VHDL Primer”,Third Edition. 8. Sudhakar Yalamanchili, “Introductory VHDL” John M. Yarbrough, Pearson Ed. TERM WORK 1. Term work should consist of atleast 10 practical experiments. 2. A minimum of 4 experiments should be performed on VHDL and other stimulation Packages such as Tinapro, Multisim, Spice etc. 1. Attendance (Theory and Practical) 05 Marks 2. Laboratory work (Experiments and Journal) 10 Marks 3. Test (at least one) 10 Marks The final certification and acceptance of TW ensures the satisfactory
- 3. performance of laboratoryWork and Minimum Passing in the term work. Suggested Experiments 1. Study of basic Logic gates on IC”s 2. 2’s complement subtraction using IC 7483 3. Study of ALU IC 74181 (Active high and Active low) 4. 4 bit magnitude comparator using 7485. 5. Stuy of flips flops using IC 74746 6. Mod -100 counter using IC 7490 and IC 7493 7. Study of bidirectional shift register IC 74194/7495 8. Basic logic gates on VHDL and implementation on CPLD/ FPGA 9. Design of BCD adder on any stimulation package 10. Implementation of Combinational circuits on VHDL 11. Implementation of Sequential circuits on VHDL 12. Study of basic system design eg. Traffic light control
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