# Digital Logic And Computer Design Pdf

Design of low power and area efficient half adder using pass transistor and comparison of various performance parameters. Kumar, Navaneet Singh Bhandari, Lokesh Bhargav, Rashmi Rathi, S. Computer Science. 2017 International Conference on Computing, Communication and Automation (ICCCA) 2017. Computer:-. Computer is a fast electronic calculating machine that accepts digitized input information,processes it according to a list of internally stored instruction,and produces the result out put information. Here list of instructions called a computer program and the internal storage is called computer memory.

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### Digital Logic And Computer Design Solution Pdf

### Computer Organization And Design 5th Edition Pdf

Lecture | Topic | PDF |

Lecture 1 | Introduction | LECT01.pdf |

Lecture 2 | Introduction to Logic Circuits: Variables, functions, truth tables, gates and networks | LECT02.pdf |

Lecture 3 | Introduction to Logic Circuits: Boolean algebra | LECT03.pdf |

Lecture 4 | Introduction to Logic Circuits: Synthesis using AND, OR, and NOT gates | LECT04.pdf |

Lecture 5 | Introduction to Logic Circuits: Design Examples | LECT05.pdf |

Lecture 6 | Introduction to Logic Circuits: CAD Tools and VHDL | LECT06.pdf |

Lecture 7 | Optimized Implementation of Logic Functions: Karnaugh Maps and Minimum Sum-of-Product Forms | LECT07.pdf |

Lecture 8 | Optimized Implementation of Logic Functions: Strategy for Minimization, Minimum Product-of-Sums Forms, Incompletely Specified Functions | LECT08.pdf |

Lecture 9 | Optimized Implementation of Logic Functions: Multiple Output Circuits, NAND and NOR Logic Networks | LECT09.pdf |

Lecture 10 | Implementation Technology: Standard Chips and Programmable Logic Devices | LECT10.pdf |

Lecture 11 | Implementation Technology: Look-up Tables, XOR and XNOR gates | LECT11.pdf |

Lecture 12 | Implementation Technology: Buffers, Tri-state gates, Transmission gates | LECT12.pdf |

Lecture 13 | Implementation Technology: NMOS and PMOS Transistors, CMOS logic gates | LECT13.pdf |

Lecture 14 | Optimized Implementation of Logic Functions: Multilevel Synthesis and Analysis | LECT14.pdf |

Exam #1 Sample Questions | Exam1 (example).pdf | |

Exam #1 Sample Questions (with solutions) | Exam1 (example with solutions).pdf | |

Lecture 15 | Optimized Implementation of Logic Functions: Multilevel Synthesis and Analysis | LECT15.pdf |

Lecture 16 | Number Representation and Arithmetic Circuits: Number Representation and Unsigned Addition | LECT16.pdf |

Lecture 17 | Number Representation and Arithmetic Circuits: Signed Numbers, Binary Adders and Subtractors | LECT17.pdf |

Lecture 18 | Number Representation and Arithmetic Circuits: Fast Adder Designs, Tradeoffs, and Examples | LECT18.pdf |

Lecture 19 | Number Representation and Arithmetic Circuits: Design of Arithmetic Circuits Using CAD Tools | LECT19.pdf |

Lecture 20 | Number Representation and Arithmetic Circuits: Other Number Representations | LECT20.pdf |

Lecture 21 | Combinatorial Circuit Building Blocks: Multiplexers | LECT21.pdf |

Lecture 22 | Combinatorial Circuit Building Blocks: Decoders, Demultiplexers, Encoders and Code Converters | LECT22.pdf |

Lecture 23 | Combinatorial Circuit Building Blocks: VHDL for Combinational Circuits | LECT23.pdf |

Lecture 24 | Flip-Flops, Registers and Counters: Latches | LECT24.pdf |

Lecture 25 | Flip-Flops, Registers and Counters: Flip-Flops | LECT25.pdf |

Lecture 26 | Flip-Flops, Registers and Counters: Registers and Counters | LECT26.pdf |

Lecture 27 | Synchronous Sequential Circuits: State Diagrams, State Tables | LECT27.pdf |

Exam #2 Sample Questions | Exam2 (example).pdf | |

Exam #2 Sample Questions (with solutions) | Exam2 (example with solutions).pdf | |

Lecture 28 | Synchronous Sequential Circuits: Implementations using D-type, T-type and JK-type Flip-Flops | LECT28.pdf |

Lecture 29 | Synchronous Sequential Circuits: State Assignment Problem, Mealy State Machines | LECT29.pdf |

Lecture 30 | VHDL for Sequential Circuits | LECT30.pdf |

Lecture 31 | Design of Finite State Machines Using CAD Tools | LECT31.pdf |

Lecture 32 | State Minimization | LECT32.pdf |