Author: C. M. Reeves

Publisher: CUP Archive

ISBN: 9780521097055

Category: Computers

Page: 191

View: 6439

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# Search Results for: **introduction-to-digital-logic-design**

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A college text for a one- or two-term first course in digital logic design at about the sophomore or junior level. It covers the basics of switching theory and logic design necessary to analyze and design combinational and sequential logic circuits at switch, gate, and register (or register-transfer

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The second edition of this text provides an introduction to the analysis and design of digital circuits at a logic, instead of electronics, level. It covers a range of topics, from number system theory to asynchronous logic design. A solution manual is available to instructors only. Requests must be made on official school stationery.

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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. Boolean Algebra and Combinational Logic Boolean algebra theorems, Realization of switching functions using logic gates, Canonical logic forms, Sum of product and product of sums, Karnaugh maps, Simplification of expressions, Variable entered maps, Quine-McCluskey minimization techniques, Mixed logic combinational circuits and multiple output functions. Analysis and Design of Combinational Logic Combinational circuit, Decoder, Encoder, Priority encoder, Multiplexers as function generators, Binary adder, Subtractor. BCD adder, Binary comparator, Arithmetic and logic units. Sequential Logic : Sequential Circuits, Analysis and Design Triggered flip-flops, Timing specifications, Asynchronous and synchronous counters, Counter design with state equations, Registers, Bidirectional shift registers. Programmable Logic Devices 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. CAD Tools Computer aided synthesis and optimization, Circuit models, Synthesis, Optimization, Computer aided simulation, Verification, Testing and design for testability.

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Digital Logic Design is a comprehensive textbook, which aims to provide entry-level readers a quick start to the field of digital logic design so as to facilitate them with the capability suitable for the versatility of social change and interdisciplinary learning. This textbook can be used as a textbook for classroom use in the fields of electronics, electrical, computer science, information engineering, mechanical, and so on. The salient features of this textbook are as follows: -- Introduce incrementally the principles of digital logic design and exemplify each basic theme and concept with abundant illustrations. -- Detail design principles of various combinational modules, including decoders, encoders, multiplexers, demultiplexers, arithmetic circuits, and so on. -- Introduce design principles of various sequential modules, including counters, registers, shift registers, sequence generators, etc. -- Address the structures, features, and applications of PLD/FPGA devices. -- Exemplify applications of CPLD/FPGA devices with Verilog HDL modules. -- Provide 20 basic and application experiments of digital logic to help readers verify the consistence of digital logic between principles and practice. -- Include an abundance of review questions in each section to help readers evaluate their understandings about the section. -- Deal with Verilog HDL concisely in relevant sections so as to make the reader understand how to describe a logic circuit in Verilog HDL precisely. Digital Logic Design is an ideal textbook for the digital logic design course in the fields of electronics, electrical, computer science, information engineering, mechanical, etc, or serves as a valuable reference book for self-study.

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An Introduction to Logic Circuit Testing provides a detailed coverage of techniques for test generation and testable design of digital electronic circuits/systems. The material covered in the book should be sufficient for a course, or part of a course, in digital circuit testing for senior-level undergraduate and first-year graduate students in Electrical Engineering and Computer Science. The book will also be a valuable resource for engineers working in the industry. This book has four chapters. Chapter 1 deals with various types of faults that may occur in very large scale integration (VLSI)-based digital circuits. Chapter 2 introduces the major concepts of all test generation techniques such as redundancy, fault coverage, sensitization, and backtracking. Chapter 3 introduces the key concepts of testability, followed by some ad hoc design-for-testability rules that can be used to enhance testability of combinational circuits. Chapter 4 deals with test generation and response evaluation techniques used in BIST (built-in self-test) schemes for VLSI chips. Table of Contents: Introduction / Fault Detection in Logic Circuits / Design for Testability / Built-in Self-Test / References

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This text is intended for a first course in digital logic design, at the sophomore or junior level, for electrical engineering, computer engineering and computer science programs, as well as for a number of other disciplines such as physics and mathematics. The book can also be used for self-study or for review by practicing engineers and computer scientists not intimately familiar with the subject. After completing this text, the student should be prepared for a second (advanced) course in digital design, switching and automata theory, microprocessors or computer organization.

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This highly acclaimed, well established, book now in its fifth edition, is intended for an introductory course in digital computer design for B.Sc. students of computer science, B.Tech. students of computer science and engineering, and BCA/MCA students of computer applications. A knowledge of programming in C or Java would be useful to give the student a proper perspective to appreciate the development of the subject. The first part of the book presents the basic tools and developes procedures suitable for the design of digital circuits and small digital systems. It equips students with a firm understanding of logic principles before they study the intricacies of logic organization and architecture of computers in the second part. Besides discussing data representation, arithmetic operations, Boolean algebra and its application in designing combinatorial and sequential switching circuits, the book introduces the Algorithmic State Machines which are used to develop a hardware description language for the design of digital systems. The organization of a small hypothetical computer is described to illustrate how instruction sets are evolved. Real computers (namely, Pentium and MIPs machines) are described and compared with the hypothetical computer. After discussing the features of a CPU, I/O devices and I/O organization, cache and virtual memory, the book concludes with a new chapter on the use of parallelism to enhance the speed of computers. Besides, the fifth edition has new material in CMOS gates, MSI/ALU and Pentium5 architecture. The chapter on Cache and Virtual Memory has been rewritten.

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For upper-level undergraduate courses.

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This textbook for courses in Digital Systems Design introduces students to the fundamental hardware used in modern computers. Coverage includes both the classical approach to digital system design (i.e., pen and paper) in addition to the modern hardware description language (HDL) design approach (computer-based). Using this textbook enables readers to design digital systems using the modern HDL approach, but they have a broad foundation of knowledge of the underlying hardware and theory of their designs. This book is designed to match the way the material is actually taught in the classroom. Topics are presented in a manner which builds foundational knowledge before moving onto advanced topics. The author has designed the presentation with learning Goals and assessment at its core. Each section addresses a specific learning outcome that the student should be able to “do” after its completion. The concept checks and exercise problems provide a rich set of assessment tools to measure student performance on each outcome.

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New, updated and expanded topics in the fourth edition include: EBCDIC, Grey code, practical applications of flip-flops, linear and shaft encoders, memory elements and FPGAs. The section on fault-finding has been expanded. A new chapter is dedicated to the interface between digital components and analog voltages. *A highly accessible, comprehensive and fully up to date digital systems text *A well known and respected text now revamped for current courses *Part of the Newnes suite of texts for HND/1st year modules

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Digital Logic Overview of basic gates and universal logic gates and AND-OR-Invert gates, Positive and negative logic, Introduction to HDL.Combinational Logic Circuits Boolean laws and theorems, Sum-of-products method, Truth table to Karnaugh Map, Pairs, Quads, and Octets, Karnaugh simplifications, Don't care conditions, Product-of-sums method, Product-of-sums simplification, Simplification by Quine-McClusky method, Hazards and Hazard covers, HDL implementation models.Data Processing Circuits Multiplexers, Demultiplexers, 1-to-16 decoders BCD-to-Decimal decoders, Seven-segment decoders, Encoders, EX-OR gates, Parity generators and checkers, Magnitude comparator, Read-only memory, Programmable array logic, Programmable logic array, Troubleshooting with a logic probe, HDL implementation of data processing circuits.Arithmetic Circuits Binary addition, Binary subtraction, Unsigned binary numbers, Sign-magnitude numbers, 2's complement representation, 2's complement arithmetic, arithmetic building blocks, The adder-subtractor, Fast adder, Arithmetic logic unit, Binary multiplication and division, Arithmetic circuits using HDL.Clocks and Timing CircuitsClock waveforms, TTL clock, Schmitt trigger, Monostables with input logic, Pulse-forming circuits.Flip-flopsRS flip-flops, gated flip-flops, Edged-triggered RS, D, JK flip-flops, Flip-flop timing, JK master-slave flip-flops, Switch contact bounce circuits, Various representations of flip-flops, Analysis of sequential circuits, Conversion of flip-flops - a synthesis example, HDL implementation of flip-flop.RegistersTypes of registers, Serial in-serial out, Serial in-parallel out, Parallel in-serial out, Parallel in-parallel out, Applications of shift registers, register implementation in HDL.CountersAsynchronous counters, Decoding gates, Synchronous counters, Changing the counter modulus, Decade counters, Presettable counters, Counter design as a synthesis problem, A digital clock, Counter design using HDL.Design of Sequential CircuitModel selection, State transition diagram, State synthesis table, Design equations and circuit diagram, Implementation using read only memory, Algorithmic state machine, State reduction technique, Analysis of asynchronous sequential circuit, Problems with asynchronous sequential circuits, Design of asynchronous sequential circuit.D/A Conversion and A/D ConversionVariable, Resistor networks, Binary ladders, D/A converters, D/A accuracy and resolution, A/D converter-simultaneous conversion, A/D converter-counter method, Continuous A/D conversion, A/D techniques, Dual-slope A/D conversion, A/D accuracy and resolution.Digital Integrated CircuitsSwitching circuits, 7400 TTL, TTL parameters, TTL overview, Open-collector gates, Three-state TTL devices, External drive for TTL loads, TTL driving external loads, 74C00 CMOS, CMOS characteristics, TTL-to-CMOS interface, CMOS-to-TTL interface, TTL and CMOS family and their characteristics.

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Briefly traces the history of computers and microprocessors, and discusses basic logic gates, programmable logic devices, Boolean algebra, combinational logic, sequential logic, computer memory, and 8086 instruction sets

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This text includes the following chapters and appendices: Common Number Systems and Conversions Operations in Binary, Octal, and Hexadecimal Systems Sign Magnitude and Floating Point Arithmetic Binary Codes Fundamentals of Boolean Algebra Minterms and Maxterms Combinational Logic Circuits Sequential Logic Circuits Memory Devices Advanced Arithmetic and Logic Operations Introduction to Field Programmable Devices Introduction to the ABEL Hardware Description Language Introduction to VHDL Introduction to Verilog Introduction to Boundary-Scan Architecture. Each chapter contains numerous practical applications. This is a design-oriented text.

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This textbook, based on the author's fifteen years of teaching, is a complete teaching tool for turning students into logic designers in one semester. Each chapter describes new concepts, giving extensive applications and examples. Assuming no prior knowledge of discrete mathematics, the authors introduce all background in propositional logic, asymptotics, graphs, hardware and electronics. Important features of the presentation are: • All material is presented in full detail. Every designed circuit is formally specified and implemented, the correctness of the implementation is proved, and the cost and delay are analyzed • Algorithmic solutions are offered for logical simulation, computation of propagation delay and minimum clock period • Connections are drawn from the physical analog world to the digital abstraction • The language of graphs is used to describe formulas and circuits • Hundreds of figures, examples and exercises enhance understanding. The extensive website (http://www.eng.tau.ac.il/~guy/Even-Medina/) includes teaching slides, links to Logisim and a DLX assembly simulator.

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"A clear presentation of fundamentals and well-paced writing style make this the ideal companion to any first course in digital logic."--Back cover.

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Updated to reflect the latest advances in the field, the Sixth Edition of Fundamentals of Digital Logic and Microcontrollers further enhances its reputation as the most accessible introduction to the basic principles and tools required in the design of digital systems. Features updates and revision to more than half of the material from the previous edition Offers an all-encompassing focus on the areas of computer design, digital logic, and digital systems, unlike other texts in the marketplace Written with clear and concise explanations of fundamental topics such as number system and Boolean algebra, and simplified examples and tutorials utilizing the PIC18F4321 microcontroller Covers an enhanced version of both combinational and sequential logic design, basics of computer organization, and microcontrollers

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Author: C. M. Reeves

Publisher: CUP Archive

ISBN: 9780521097055

Category: Computers

Page: 191

View: 6439

Author: John Patrick Hayes

Publisher: Prentice Hall

ISBN: 9780201154610

Category: Digital electronics

Page: 815

View: 398

A college text for a one- or two-term first course in digital logic design at about the sophomore or junior level. It covers the basics of switching theory and logic design necessary to analyze and design combinational and sequential logic circuits at switch, gate, and register (or register-transfer

Author: Sajjan G. Shiva

Publisher: CRC Press

ISBN: 9780824700829

Category: Technology & Engineering

Page: 628

View: 7604

The second edition of this text provides an introduction to the analysis and design of digital circuits at a logic, instead of electronics, level. It covers a range of topics, from number system theory to asynchronous logic design. A solution manual is available to instructors only. Requests must be made on official school stationery.

Author: A.P.Godse,D.A.Godse

Publisher: Technical Publications

ISBN: 9788184314717

Category:

Page: 904

View: 3291

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. Boolean Algebra and Combinational Logic Boolean algebra theorems, Realization of switching functions using logic gates, Canonical logic forms, Sum of product and product of sums, Karnaugh maps, Simplification of expressions, Variable entered maps, Quine-McCluskey minimization techniques, Mixed logic combinational circuits and multiple output functions. Analysis and Design of Combinational Logic Combinational circuit, Decoder, Encoder, Priority encoder, Multiplexers as function generators, Binary adder, Subtractor. BCD adder, Binary comparator, Arithmetic and logic units. Sequential Logic : Sequential Circuits, Analysis and Design Triggered flip-flops, Timing specifications, Asynchronous and synchronous counters, Counter design with state equations, Registers, Bidirectional shift registers. Programmable Logic Devices 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. CAD Tools Computer aided synthesis and optimization, Circuit models, Synthesis, Optimization, Computer aided simulation, Verification, Testing and design for testability.

*With an Introduction to Verilog Hdl*

Author: Ming-Bo Lin

Publisher: Createspace Independent Publishing Platform

ISBN: 9781537158365

Category:

Page: 634

View: 5573

Digital Logic Design is a comprehensive textbook, which aims to provide entry-level readers a quick start to the field of digital logic design so as to facilitate them with the capability suitable for the versatility of social change and interdisciplinary learning. This textbook can be used as a textbook for classroom use in the fields of electronics, electrical, computer science, information engineering, mechanical, and so on. The salient features of this textbook are as follows: -- Introduce incrementally the principles of digital logic design and exemplify each basic theme and concept with abundant illustrations. -- Detail design principles of various combinational modules, including decoders, encoders, multiplexers, demultiplexers, arithmetic circuits, and so on. -- Introduce design principles of various sequential modules, including counters, registers, shift registers, sequence generators, etc. -- Address the structures, features, and applications of PLD/FPGA devices. -- Exemplify applications of CPLD/FPGA devices with Verilog HDL modules. -- Provide 20 basic and application experiments of digital logic to help readers verify the consistence of digital logic between principles and practice. -- Include an abundance of review questions in each section to help readers evaluate their understandings about the section. -- Deal with Verilog HDL concisely in relevant sections so as to make the reader understand how to describe a logic circuit in Verilog HDL precisely. Digital Logic Design is an ideal textbook for the digital logic design course in the fields of electronics, electrical, computer science, information engineering, mechanical, etc, or serves as a valuable reference book for self-study.

Author: Parag K. Lala

Publisher: Morgan & Claypool Publishers

ISBN: 1598293508

Category: Computers

Page: 99

View: 7195

An Introduction to Logic Circuit Testing provides a detailed coverage of techniques for test generation and testable design of digital electronic circuits/systems. The material covered in the book should be sufficient for a course, or part of a course, in digital circuit testing for senior-level undergraduate and first-year graduate students in Electrical Engineering and Computer Science. The book will also be a valuable resource for engineers working in the industry. This book has four chapters. Chapter 1 deals with various types of faults that may occur in very large scale integration (VLSI)-based digital circuits. Chapter 2 introduces the major concepts of all test generation techniques such as redundancy, fault coverage, sensitization, and backtracking. Chapter 3 introduces the key concepts of testability, followed by some ad hoc design-for-testability rules that can be used to enhance testability of combinational circuits. Chapter 4 deals with test generation and response evaluation techniques used in BIST (built-in self-test) schemes for VLSI chips. Table of Contents: Introduction / Fault Detection in Logic Circuits / Design for Testability / Built-in Self-Test / References

Author: Gideon Langholz,Abraham Kandel,Joe L. Mott

Publisher: World Scientific

ISBN: 9789810231101

Category: Technology & Engineering

Page: 583

View: 9575

This text is intended for a first course in digital logic design, at the sophomore or junior level, for electrical engineering, computer engineering and computer science programs, as well as for a number of other disciplines such as physics and mathematics. The book can also be used for self-study or for review by practicing engineers and computer scientists not intimately familiar with the subject. After completing this text, the student should be prepared for a second (advanced) course in digital design, switching and automata theory, microprocessors or computer organization.

Author: V. RAJARAMAN,T. RADHAKRISHNAN

Publisher: PHI Learning Pvt. Ltd.

ISBN: 9788120334090

Category: Computers

Page: 528

View: 1417

This highly acclaimed, well established, book now in its fifth edition, is intended for an introductory course in digital computer design for B.Sc. students of computer science, B.Tech. students of computer science and engineering, and BCA/MCA students of computer applications. A knowledge of programming in C or Java would be useful to give the student a proper perspective to appreciate the development of the subject. The first part of the book presents the basic tools and developes procedures suitable for the design of digital circuits and small digital systems. It equips students with a firm understanding of logic principles before they study the intricacies of logic organization and architecture of computers in the second part. Besides discussing data representation, arithmetic operations, Boolean algebra and its application in designing combinatorial and sequential switching circuits, the book introduces the Algorithmic State Machines which are used to develop a hardware description language for the design of digital systems. The organization of a small hypothetical computer is described to illustrate how instruction sets are evolved. Real computers (namely, Pentium and MIPs machines) are described and compared with the hypothetical computer. After discussing the features of a CPU, I/O devices and I/O organization, cache and virtual memory, the book concludes with a new chapter on the use of parallelism to enhance the speed of computers. Besides, the fifth edition has new material in CMOS gates, MSI/ALU and Pentium5 architecture. The chapter on Cache and Virtual Memory has been rewritten.

Author: Fredrick J. Hill,Gerald R. Peterson

Publisher: John Wiley & Sons

ISBN: N.A

Category: Technology & Engineering

Page: 596

View: 9261

For upper-level undergraduate courses.

Author: Brock J. LaMeres

Publisher: Springer

ISBN: 3319538837

Category: Technology & Engineering

Page: 459

View: 8437

This textbook for courses in Digital Systems Design introduces students to the fundamental hardware used in modern computers. Coverage includes both the classical approach to digital system design (i.e., pen and paper) in addition to the modern hardware description language (HDL) design approach (computer-based). Using this textbook enables readers to design digital systems using the modern HDL approach, but they have a broad foundation of knowledge of the underlying hardware and theory of their designs. This book is designed to match the way the material is actually taught in the classroom. Topics are presented in a manner which builds foundational knowledge before moving onto advanced topics. The author has designed the presentation with learning Goals and assessment at its core. Each section addresses a specific learning outcome that the student should be able to “do” after its completion. The concept checks and exercise problems provide a rich set of assessment tools to measure student performance on each outcome.

Author: Brian Holdsworth,Clive Woods

Publisher: Elsevier

ISBN: 0080477305

Category: Technology & Engineering

Page: 519

View: 8238

New, updated and expanded topics in the fourth edition include: EBCDIC, Grey code, practical applications of flip-flops, linear and shaft encoders, memory elements and FPGAs. The section on fault-finding has been expanded. A new chapter is dedicated to the interface between digital components and analog voltages. *A highly accessible, comprehensive and fully up to date digital systems text *A well known and respected text now revamped for current courses *Part of the Newnes suite of texts for HND/1st year modules

Author: D.A.Godse A.P.Godse

Publisher: Technical Publications

ISBN: 9788184312850

Category:

Page: 776

View: 5202

Digital Logic Overview of basic gates and universal logic gates and AND-OR-Invert gates, Positive and negative logic, Introduction to HDL.Combinational Logic Circuits Boolean laws and theorems, Sum-of-products method, Truth table to Karnaugh Map, Pairs, Quads, and Octets, Karnaugh simplifications, Don't care conditions, Product-of-sums method, Product-of-sums simplification, Simplification by Quine-McClusky method, Hazards and Hazard covers, HDL implementation models.Data Processing Circuits Multiplexers, Demultiplexers, 1-to-16 decoders BCD-to-Decimal decoders, Seven-segment decoders, Encoders, EX-OR gates, Parity generators and checkers, Magnitude comparator, Read-only memory, Programmable array logic, Programmable logic array, Troubleshooting with a logic probe, HDL implementation of data processing circuits.Arithmetic Circuits Binary addition, Binary subtraction, Unsigned binary numbers, Sign-magnitude numbers, 2's complement representation, 2's complement arithmetic, arithmetic building blocks, The adder-subtractor, Fast adder, Arithmetic logic unit, Binary multiplication and division, Arithmetic circuits using HDL.Clocks and Timing CircuitsClock waveforms, TTL clock, Schmitt trigger, Monostables with input logic, Pulse-forming circuits.Flip-flopsRS flip-flops, gated flip-flops, Edged-triggered RS, D, JK flip-flops, Flip-flop timing, JK master-slave flip-flops, Switch contact bounce circuits, Various representations of flip-flops, Analysis of sequential circuits, Conversion of flip-flops - a synthesis example, HDL implementation of flip-flop.RegistersTypes of registers, Serial in-serial out, Serial in-parallel out, Parallel in-serial out, Parallel in-parallel out, Applications of shift registers, register implementation in HDL.CountersAsynchronous counters, Decoding gates, Synchronous counters, Changing the counter modulus, Decade counters, Presettable counters, Counter design as a synthesis problem, A digital clock, Counter design using HDL.Design of Sequential CircuitModel selection, State transition diagram, State synthesis table, Design equations and circuit diagram, Implementation using read only memory, Algorithmic state machine, State reduction technique, Analysis of asynchronous sequential circuit, Problems with asynchronous sequential circuits, Design of asynchronous sequential circuit.D/A Conversion and A/D ConversionVariable, Resistor networks, Binary ladders, D/A converters, D/A accuracy and resolution, A/D converter-simultaneous conversion, A/D converter-counter method, Continuous A/D conversion, A/D techniques, Dual-slope A/D conversion, A/D accuracy and resolution.Digital Integrated CircuitsSwitching circuits, 7400 TTL, TTL parameters, TTL overview, Open-collector gates, Three-state TTL devices, External drive for TTL loads, TTL driving external loads, 74C00 CMOS, CMOS characteristics, TTL-to-CMOS interface, CMOS-to-TTL interface, TTL and CMOS family and their characteristics.

*Logic Design and the 8086 Microprocessor*

Author: Richard E. Haskell

Publisher: N.A

ISBN: N.A

Category: Intel 8086 (Microprocessor)

Page: 632

View: 3373

Briefly traces the history of computers and microprocessors, and discusses basic logic gates, programmable logic devices, Boolean algebra, combinational logic, sequential logic, computer memory, and 8086 instruction sets

Author: Igor Aleksander

Publisher: N.A

ISBN: N.A

Category: Technology & Engineering

Page: 174

View: 642

Author: Steven T. Karris

Publisher: Orchard Publications

ISBN: 1934404055

Category: Education

Page: 548

View: 7555

This text includes the following chapters and appendices: Common Number Systems and Conversions Operations in Binary, Octal, and Hexadecimal Systems Sign Magnitude and Floating Point Arithmetic Binary Codes Fundamentals of Boolean Algebra Minterms and Maxterms Combinational Logic Circuits Sequential Logic Circuits Memory Devices Advanced Arithmetic and Logic Operations Introduction to Field Programmable Devices Introduction to the ABEL Hardware Description Language Introduction to VHDL Introduction to Verilog Introduction to Boundary-Scan Architecture. Each chapter contains numerous practical applications. This is a design-oriented text.

*A Rigorous Approach*

Author: Guy Even,Moti Medina

Publisher: Cambridge University Press

ISBN: 1139789791

Category: Computers

Page: N.A

View: 4274

This textbook, based on the author's fifteen years of teaching, is a complete teaching tool for turning students into logic designers in one semester. Each chapter describes new concepts, giving extensive applications and examples. Assuming no prior knowledge of discrete mathematics, the authors introduce all background in propositional logic, asymptotics, graphs, hardware and electronics. Important features of the presentation are: • All material is presented in full detail. Every designed circuit is formally specified and implemented, the correctness of the implementation is proved, and the cost and delay are analyzed • Algorithmic solutions are offered for logical simulation, computation of propagation delay and minimum clock period • Connections are drawn from the physical analog world to the digital abstraction • The language of graphs is used to describe formulas and circuits • Hundreds of figures, examples and exercises enhance understanding. The extensive website (http://www.eng.tau.ac.il/~guy/Even-Medina/) includes teaching slides, links to Logisim and a DLX assembly simulator.

Author: D. J. Woollons

Publisher: N.A

ISBN: N.A

Category: Technology & Engineering

Page: 238

View: 9361

Author: A.P.Godse,D.A.Godse

Publisher: Technical Publications

ISBN: 9788184316308

Category:

Page: 960

View: 3466

Author: Alan B. Marcovitz

Publisher: McGraw Hill Professional

ISBN: 9780072865165

Category: Technology & Engineering

Page: 652

View: 5650

"A clear presentation of fundamentals and well-paced writing style make this the ideal companion to any first course in digital logic."--Back cover.

Author: M. Rafiquzzaman

Publisher: John Wiley & Sons

ISBN: 1118969308

Category: Technology & Engineering

Page: 512

View: 9159

Updated to reflect the latest advances in the field, the Sixth Edition of Fundamentals of Digital Logic and Microcontrollers further enhances its reputation as the most accessible introduction to the basic principles and tools required in the design of digital systems. Features updates and revision to more than half of the material from the previous edition Offers an all-encompassing focus on the areas of computer design, digital logic, and digital systems, unlike other texts in the marketplace Written with clear and concise explanations of fundamental topics such as number system and Boolean algebra, and simplified examples and tutorials utilizing the PIC18F4321 microcontroller Covers an enhanced version of both combinational and sequential logic design, basics of computer organization, and microcontrollers