Module 1
Addition, Subtraction, Multiplication & division of binary nos, BCD nos, excess-3 code, gray code, alphanumeric codes, error detection using parity bits – error correcting codes, haming code.
Addition, Subtraction, Multiplication & division of binary nos, BCD nos, excess-3 code, gray code, alphanumeric codes, error detection using parity bits – error correcting codes, haming code.
Module 2
Postulates of boolean algebra – basic theorems – Logic functions – truth tables – canonical forms – SOP, POS – methods of minimization of logic functions – K maps & quine mcclaskey method – realization using logic gates – NAND NOR gates – universal gates – don’t care combinations – formation of switching function – from word statements.
Postulates of boolean algebra – basic theorems – Logic functions – truth tables – canonical forms – SOP, POS – methods of minimization of logic functions – K maps & quine mcclaskey method – realization using logic gates – NAND NOR gates – universal gates – don’t care combinations – formation of switching function – from word statements.
Module3
Sequential logic – flip flops – SR, JK, T & D flip flops – master slave JK flip flop, Counters – asynchronous, binary decade, and up/down counters – synchronous binary decade, and up/down counters.
Sequential logic – flip flops – SR, JK, T & D flip flops – master slave JK flip flop, Counters – asynchronous, binary decade, and up/down counters – synchronous binary decade, and up/down counters.
Module4
Adders – design – Half adder, Full adder, Half subtractor & Full subtractor – Carry look ahead adder, carry save adder, carry propagation adder.
Adders – design – Half adder, Full adder, Half subtractor & Full subtractor – Carry look ahead adder, carry save adder, carry propagation adder.
Module 5
Registers – serial in & parallel in shift registers – left & right shift registers – static shift registers – typical IC’s – counters using shift registers – ring counter, Johnson counter.
Registers – serial in & parallel in shift registers – left & right shift registers – static shift registers – typical IC’s – counters using shift registers – ring counter, Johnson counter.
References
1. An introduction to digital computer design – Rajaraman & Radhakrishnan, PHI
2. Logic and Computer Design – M. Moris Mano, Charles R. Kime Pearson Education
3. Switching & finite automata theory – Zvi Kohavi, Tata McGraw Hill
4. Digital computer fundamentals – Thomas C. Bartee, Tata McGraw Hill.
5. Digital Computer Design – Malvino, Tata McGraw Hill.
6. Digital Design – Morris Mano, Pearson Education
7. Digital Design Principles & Practice – John F. Wakerly, Pearson Education
2. Logic and Computer Design – M. Moris Mano, Charles R. Kime Pearson Education
3. Switching & finite automata theory – Zvi Kohavi, Tata McGraw Hill
4. Digital computer fundamentals – Thomas C. Bartee, Tata McGraw Hill.
5. Digital Computer Design – Malvino, Tata McGraw Hill.
6. Digital Design – Morris Mano, Pearson Education
7. Digital Design Principles & Practice – John F. Wakerly, Pearson Education
mg university b.tech syllabus s3 computer science engg S3