This note introduces the student to the design of digital logic circuits, both combinational and sequential, and the design of digital systems in a hierarchical, top-down manner. Topics covered includes: Electronic devices and digital circuits, binary numbers, Boolean algebra and switching functions, gates and flipflops, combinational and sequential logic circuits, hierarchical design of digital systems, computeraided design tools for digital design, simulation and testing.
Author(s): Dr. Charles E. Stroud
This note aims to convey a knowledge of advanced concepts of circuit design for digital VLSI components in state of the art MOS technologies. Topics covered includes: Impact of technology scaling,Transistor models,Delay models, Gate delays, Optimization for speed, CMOS logic styles, Differential and pass-transistor logic, Pass transistor and dynamic logic, Dynamic logic, Dynamic pass-transistor logic, Low power design, Voltage scaling, Dealing with leakage, Body bias, energy recovery, Power distribution, Adders, Multipliers, Asynchronous design, Clock distribution and generation, Latch design, Flash memory .
Author(s): University of California, Berkeley
This note covers the following topics: Number systemand codes, Boolean Algebra and Logic gates, Boolean Algebra and Logic gates, Combinational Logic, Synchronous Sequential logic, Memory and Programmable logic, Register Transfer levels, Digital Integrated logic Circuits.
Author(s): VSS University of Technology
This note explains the following topics: Primary Logic Gates, Boolean Algebra, Dual Theorem, DeMorgans Theorem, Variable-Entered Map, Flip-Flop Stimulus Table, Design of Asynchronous Sequential Circuit, Gated–Latch Logic Diagram-SR Latch.
Author(s): Chu Yu, National Ilan University
This note explains the following topics: Sequential circuits, NAND latch, NOR latch, Chatter due to a mechanical switch , The clock, Clocked RS latch, Edge-triggered flip-flops, JK flip-flop.
Author(s): M. B. Patil
This note explains the following topics: Basic electronic parameters and components, LED (Light Emitting Diode), Analog and Digital Signals , Analog and Digital Sound Representation, Logic Gates And Functions, Sequential Logic, Binary System , Shift Register, Clocks and Counters, The 555 timer IC.
Author(s): Walid K. Hamoudei
This book is all about the design of digital circuits. Topics covered includes: Designing Digital Circuits, Designing Combinational Circuits With VHDL, Computer-Aided Design, VHDL Language Features, Building Blocks of Digital Circuits, Sequential Circuits, State Machines with Data, Verifying Circuit Operation, Small Scale Circuit Optimization, Implementing Digital Circuit Elements, Implementing a Programmable Processor, Memory Components, Improving Processor Performance.
Author(s): Jonathan Turner
This book explains the following topics: Data Representation and Number system, Binary Logic, Combinational circuit , Designing Combinatorial Circuits, Sequential circuit, Register, Tri-state logic.
Author(s): NA
This note covers the following topics: Digital Logic, Realizing Logic in Hardware, Manipulating Logic Specifications, Combinational Building Blocks, Building Blocks with Memory, D flip-flop model and Designing a Minicompter.
Author(s): Steve Johnson
This note explains the following topics: Digital Logic, Realizing Logic in Hardware, Manipulating Logic Specifications, Combinational Building Blocks, Building Blocks with Memory, D flip-flop model, Designing a Minicompter.
Author(s): Dr Ian Wassell
This lecture note is an introduction to electronic techniques used in experimental physics. Topics covered includes: op-amps, logic elements and the use of programmable logic. A large emphasis of this course note will be on computer-aided schematic capture and simulation.
Author(s): Erich Varnes
This book covers the following topics: Significant Time Intervals In The Digital Amplifier Operation Cycle, Requirements For Stable Binary Signal Propagation, Significant Time Intervals In The Digital Amplifier Operation Cycle, Derivation Of The Magnetic Digital Amplifier Transfer-function, An Attempt To Achieve A Satisfactory Element Transfer-function, The Addition Of The Peak-saturating Emitter -follower Produces, Exclusion Of Marginal Signals, Propagation Function For Negating Amplifiers, Stability Margins Of Mixed Element-groups, Factors Affecting Power Gain And Fan out.
Author(s): Hogue, E. W
The course note covers the following digital design topics such as digital logic, sequential building blocks, finite-state machines, FPGAs, timing and synchronization.
Author(s): Prof. Anantha Chandrakasan
This note introduces digital systems design with hardware description languages (HDL), programmable implementation technologies, electronic design automation design flows, design considerations and constraints, design for test, system on a chip designs, IP cores, reconfigurable computing, digital system design examples and applications.
Author(s): Dr. Jeff Jackson
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
This paper concerns a method for digital circuit optimization based on formulating the problem as a geometric program (GP) or generalized geometric program (GGP), which can be transformed to a convex optimization problem and then very efficiently solved. Gate Scaling, GP Models, Robust and Multimode Design, Statistical Design, Supply and Threshold Voltage Optimization and Wire Sizing and Gate Design
Author(s): Stephen P. Boyd
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
This note covers the following topics: Review of Digital Logic Design, Boolean Functions and Boolean Algebra, Digital Circuits, Encoders, Decoders, and Multiplexors, Gates from Transistors, Review of Sequential Circuits, Flip-Flop (SR-Latch), A Clocked Flip-Flop, N-Bit Register and Computer Memory.
Author(s): Jeremy Johnson
This note covers the following topics: Linear Equivalent Circuits, Digital building blocks - inverters, A generic inverter and MOS inverter options, Digital inverter performance metrics.
Author(s): Prof. Clifton Fonstad
This note covers the following topics: Binary, Hexadecimal, and Decimal Numbers, Signed Binary Numbers and Binary Codes, Boolean Algebra and Combinational Digital Logic, Logic Simplification Using Karnaugh Maps, More Complex Combinational Logic Circuits, Flip-Flops, The Foundation of Sequential Logic, Registers, Counters, and Other Latch-Based Circuits, Designing Digital Sequential Logic Circuits, Programming Fundamentals and SPIM Set-Up, More Instructions, Directives, and System Calls, System Calls 5 and 8 and Data Memory Instructions, Decision Support Instructions, Shift and Rotate, Procedures, and the Stack Constructing Loops in SPIM, The Pipeline MIPS Processor and Memory Management in Modern Computers.
Author(s): Dr. Nathan B. Dodge
This note covers the following topics: SCMOS Design rules, Inverter, Combinational Logic in CMOS, Low Power Design, High Performance Design, Sequential Logic and Semiconductor memory.
Author(s): Jan M. Rabaey
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA