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A Tutorial Introduction to VHDL Programming [electronic resource] / by Orhan Gazi.

By: Gazi, Orhan [author.].
Contributor(s): SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: Singapore : Springer Nature Singapore : Imprint: Springer, 2019Edition: 1st ed. 2019.Description: VII, 251 p. 414 illus., 29 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9789811323096.Subject(s): Electronic circuits | Microprogramming  | Electronic Circuits and Systems | Control Structures and MicroprogrammingAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 621.3815 Online resources: Click here to access online
Contents:
Entity, Architecture and VHDL Operators -- Combinational Logic Circuit Design and Concurrent Coding in VHDL -- Simulation of VHDL Programs -- User Defined Data Types, Arrays and Attributes -- Sequential Circuit Implementation in VHDL -- VHDL Implementation of Logic Circuits Involving Registers and Counters -- Packages, Components, Functions and Procedures -- Fixed and Floating Point Numbers.
In: Springer Nature eBookSummary: This book helps readers create good VHDL descriptions and simulate VHDL designs. It teaches VHDL using selected sample problems, which are solved step by step and with precise explanations, so that readers get a clear idea of what a good VHDL code should look like. The book is divided into eight chapters, covering aspects ranging from the very basics of VHDL syntax and the module concept, to VHDL logic circuit implementations. In the first chapter, the entity and architecture parts of a VHDL program are explained in detail. The second chapter explains the implementations of combinational logic circuits in VHDL language, while the following chapters offer information on the simulation of VHDL programs and demonstrate how to define data types other than the standard ones available in VHDL libraries. In turn, the fifth chapter explains the implementation of clocked sequential logic circuits, and the sixth shows the implementation of registers and counter packages. The book’s last two chapters detail how components, functions and procedures, as well as floating-point numbers, are implemented in VHDL. The book offers extensive exercises at the end of each chapter, inviting readers to learn VHDL by doing it and writing good code. .
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Entity, Architecture and VHDL Operators -- Combinational Logic Circuit Design and Concurrent Coding in VHDL -- Simulation of VHDL Programs -- User Defined Data Types, Arrays and Attributes -- Sequential Circuit Implementation in VHDL -- VHDL Implementation of Logic Circuits Involving Registers and Counters -- Packages, Components, Functions and Procedures -- Fixed and Floating Point Numbers.

This book helps readers create good VHDL descriptions and simulate VHDL designs. It teaches VHDL using selected sample problems, which are solved step by step and with precise explanations, so that readers get a clear idea of what a good VHDL code should look like. The book is divided into eight chapters, covering aspects ranging from the very basics of VHDL syntax and the module concept, to VHDL logic circuit implementations. In the first chapter, the entity and architecture parts of a VHDL program are explained in detail. The second chapter explains the implementations of combinational logic circuits in VHDL language, while the following chapters offer information on the simulation of VHDL programs and demonstrate how to define data types other than the standard ones available in VHDL libraries. In turn, the fifth chapter explains the implementation of clocked sequential logic circuits, and the sixth shows the implementation of registers and counter packages. The book’s last two chapters detail how components, functions and procedures, as well as floating-point numbers, are implemented in VHDL. The book offers extensive exercises at the end of each chapter, inviting readers to learn VHDL by doing it and writing good code. .

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