Digital Design and Modeling with VHDL and Synthesis / Edition 1

Paperback (Print)
Used and New from Other Sellers
Used and New from Other Sellers
from $12.48
Usually ships in 1-2 business days
(Save 90%)
Other sellers (Paperback)
  • All (16) from $12.48   
  • New (8) from $62.11   
  • Used (8) from $12.40   
Sort by
Page 1 of 2
Showing 1 – 10 of 16 (2 pages)
Note: Marketplace items are not eligible for any coupons and promotions
Seller since 2002

Feedback rating:



New — never opened or used in original packaging.

Like New — packaging may have been opened. A "Like New" item is suitable to give as a gift.

Very Good — may have minor signs of wear on packaging but item works perfectly and has no damage.

Good — item is in good condition but packaging may have signs of shelf wear/aging or torn packaging. All specific defects should be noted in the Comments section associated with each item.

Acceptable — item is in working order but may show signs of wear such as scratches or torn packaging. All specific defects should be noted in the Comments section associated with each item.

Used — An item that has been opened and may show signs of wear. All specific defects should be noted in the Comments section associated with each item.

Refurbished — A used item that has been renewed or updated and verified to be in proper working condition. Not necessarily completed by the original manufacturer.

May include moderately worn cover, writing, markings or slight discoloration. SKU:9780818677168-4-0

Ships from: Salem, OR

Usually ships in 1-2 business days

  • Canadian
  • International
  • Standard, 48 States
  • Standard (AK, HI)
  • Express, 48 States
  • Express (AK, HI)
Seller since 2009

Feedback rating:


Condition: Good
1997 Paperback Good

Ships from: San DIego, CA

Usually ships in 1-2 business days

  • Canadian
  • International
  • Standard, 48 States
  • Standard (AK, HI)
  • Express, 48 States
  • Express (AK, HI)
Seller since 2002

Feedback rating:


Condition: Very Good
Has minor wear and/or markings. SKU:9780818677168-3-0

Ships from: Salem, OR

Usually ships in 1-2 business days

  • Canadian
  • International
  • Standard, 48 States
  • Standard (AK, HI)
  • Express, 48 States
  • Express (AK, HI)
Seller since 2015

Feedback rating:


Condition: Good
Sound copy that may show minimal signs of wear or previous ownership.

Ships from: Hillsboro, OR

Usually ships in 1-2 business days

  • International
  • Standard, 48 States
  • Standard (AK, HI)
  • Express, 48 States
  • Express (AK, HI)
Seller since 2015

Feedback rating:


Condition: Very Good
This copy shows very minor wear. Free State Books. Never settle for less.

Ships from: Halethorpe, MD

Usually ships in 1-2 business days

  • Canadian
  • International
  • Standard, 48 States
  • Standard (AK, HI)
  • Express, 48 States
  • Express (AK, HI)
Seller since 2015

Feedback rating:


Condition: Good
Buy with Confidence. Excellent Customer Support. We ship from multiple US locations. No CD, DVD or Access Code Included.

Ships from: Fort Mill, SC

Usually ships in 1-2 business days

  • Standard, 48 States
Seller since 2008

Feedback rating:


Condition: New

Ships from: Chicago, IL

Usually ships in 1-2 business days

  • Standard, 48 States
  • Standard (AK, HI)
Seller since 2005

Feedback rating:


Condition: New
Ships same day or next business day! UPS(AK/HI Priority Mail)/ NEW book

Ships from: Columbia, MO

Usually ships in 1-2 business days

  • Standard, 48 States
  • Standard (AK, HI)
  • Express, 48 States
  • Express (AK, HI)
Seller since 2008

Feedback rating:


Condition: New
Brand New, Perfect Condition, Please allow 4-14 business days for delivery. 100% Money Back Guarantee, Over 1,000,000 customers served.

Ships from: Batavia, IL

Usually ships in 1-2 business days

  • Canadian
  • International
  • Standard, 48 States
  • Standard (AK, HI)
Seller since 2007

Feedback rating:


Condition: New
Brand New Item

Ships from: Dover, NJ

Usually ships in 1-2 business days

  • Standard, 48 States
Page 1 of 2
Showing 1 – 10 of 16 (2 pages)
Sort by


Digital Systems Design with VHDL and Synthesis presents an integrated approach to digital design principles, processes, and implementations to help the reader design much more complex systems within a shorter design cycle. This is accomplished by introducing digital design concepts, VHDL coding, VHDL simulation, synthesis commands, and strategies together.

The author focuses on the ultimate product of the design cycle: the implementation of a digital design. VHDL coding, synthesis methodologies and verification techniques are presented as tools to support the final design implementation. Readers will understand how to apply and adapt techniques for VHDL coding, verification, and synthesis to various situations.

Digital Systems Design with VHDL and Synthesis is a result of K.C. Chang's practical experience in both design and as an instructor. Many of the design techniques and considerations illustrated throughout the chapters are examples of viable designs. His teaching experience leads to a step-by-step presentation that addresses common mistakes and hard-to-understand concepts in a way that eases learning.

Unique features of the book include the following:

  • VHDL code explained line by line to capture the logic behind the design concepts
  • VHDL is verified using VHDL test benches and simulation tools
  • Simulation waveforms are shown and explained to verify design correctness
  • VHDL code is synthesized and commands and strategies are discussed. Synthesized schematics and results are analyzed for area and timing
  • Variations on the design techniques and common mistakes are addressed; Demonstrated standard cell, gate array, and FPGA three design processes
  • Each with a complete design case study
  • Test bench, post-layout verification, and test vector generation processes.

Practical design concepts and examples are presented with VHDL code, simulation waveforms, and synthesized schematics so that readers can better understand their correspondence and relationships.

" introductory text addressing common mistakes & hard- to-understand concepts...offers practical design examples, simulation waveforms, and schematics based on real-world examples."

Read More Show Less

Product Details

  • ISBN-13: 9780818677168
  • Publisher: Wiley
  • Publication date: 10/18/1997
  • Series: Systems Series, #20
  • Edition number: 1
  • Pages: 364
  • Product dimensions: 7.54 (w) x 9.35 (h) x 0.82 (d)

Read an Excerpt

Digital Design and Modeling with VHDL and Synthesis

By K.C. Chang

John Wiley & Sons

ISBN: 0-8186-7716-3

Chapter One



In 1980 the US government developed the Very High Speed Integrated Circuit (VHSIC) project to enhance the electronic design process, technology, and procurement, spawning development of many advanced integrated circuit (IC) process technologies. This was followed by the arrival of VHSIC Hardware Description Language (VHDL), which was endorsed by IEEE in 1986 in its attempt at standardization. By December of 1987 the IEEE 1076.1 standard for VHDL was approved and a VHDL Language Reference Manual (LRM) was published.

This book will be based primarily on the 1987 standard, since it is the foundation for most VHDL simulators and synthesis tools currently on the market. It is also the foundation for the VHDL Initiative Towards ASIC Libraries (VITAL) in detailed function and timing modeling of primitive components. However, the 1987 standard was updated in 1993 and must also be addressed. This is done in Chapter 14. VHDL'87 will refer to the 1987 standard and VHDL'93 will refer to the 1993 standard.


VHDL offers the following advantages for digital design:

Standard: VHDL is an IEEE standard. Just like any standard (such as graphics X-window standard, bus communication interface standard, high-level programming languages, and so on), it reduces confusion and makes interfaces between tools, companies, and products easier. Any development to the standard would have better chances of lasting longer and have less chance of becoming obsolete due to incompatibility with others.

Government support: VHDL is a result of the VHSIC program; hence, it is clear that the US government supports the VHDL standard for electronic procurement. The Department of Defense (DOD) requires contractors to supply VHDL for all Application Specific Integrated Circuit (ASIC) designs.

Industry support: With the advent of more powerful and efficient VHDL tools has come the growing support of the electronic industry. Companies use VHDL tools not only with regard to defense contracts, but also for their commercial designs.

Portability: The same VHDL code can be simulated and used in many design tools and at different stages of the design process. This reduces dependency on a set of design tools whose limited capability may not be competitive in later markets. The VHDL standard also transforms design data much easier than a design database of a proprietary design tool.

Modeling capability: VHDL was developed to model all levels of designs, from electronic boxes to transistors. VHDL can accommodate behavioral constructs and mathematical routines that describe complex models, such as queuing networks and analog circuits. It allows use of multiple architectures and associates with the same design during various stages of the design process. As shown in Figure 1.1, VHDL can describe low-level transistors up to very large systems. This book will concentrate on using VHDL for the design of ASICs and digital blocks.

Reusability: Certain common designs can be described, verified, and modified slightly in VHDL for future use. This eliminates reading and marking changes to schematic pages, which is time consuming and subject to error. For example, a parameterized multiplier VHDL code can be reused easily by changing the width parameter so that the same VHDL code can do either 16 by 16 or 12 by 8 multiplication.

Technology and foundry independence: The functionality and behavior of the design can be described with VHDL and verified, making it foundry and technology independent. This frees the designer to proceed without having to wait for the foundry and technology to be selected.

Documentation: VHDL is a design description language which allows documentation to be located in a single place by embedding it in the code. The combining of comments and the code that actually dictates what the design should do reduces the ambiguity between specification and implementation.

New design methodology: Using VHDL and synthesis creates a new methodology that increases the design productivity, shortens the design cycle, and lowers costs. It amounts to a revolution comparable to that introduced by the automatic semi-custom layout synthesis tools of the last few years.


Synthesis, in the domain of digital design, is a process of translation and optimization. For example, layout synthesis is a process of taking a design netlist and translating it into a form of data that facilitates placement and routing, resulting in optimizing timing and/or chip size. Logic synthesis, on the other hand, is the process of taking a form of input (VHDL), translating it into a form (Boolean equations and synthesis tool specific), and then optimizing in terms of propagation delay and/or area. For example, Figure 1.2 shows the schematic view of the synthesis tool specific internal form translated from a VHDL code. Note that there are some blocks to generate sequential circuits, such as flipflops, and some blocks to generate combinational circuits.

After the VHDL code is translated into an internal form, the optimization process can be performed based on constraints such as speed, area, power, and so on. Figure 1.3 depicts the schematic, after the circuit is optimized.


Introducing VHDL and synthesis enables the design community to explore a new design methodology. The traditional design approach, as shown in Figure 1,4a, starts with drawing schematics and then performs functional and timing simulation based on the same schematic. If there is any design error, the process iterates back to update schematics. After the layout, functions and back annotated timing are verified again with the same schematics.

The VHDL-based design approach is illustrated in Figure 1.4b. The design is functionally described with VHDL. VHDL simulation is used to verify the functionality of the design. In general, modifying VHDL source code is much faster than changing schematics. This allows designers to make faster functionally correct designs, to explore more architecture trade-offs, and to have more impact on the designs. After the functions match the requirements, the VHDL code is synthesized to generate schematics (or equivalent netlists). The netlist can be used to layout the circuit and to verify the timing requirement (both before or after the layout). The design changes can be made by modifying VHDL code or changing the constraints (timing, area, and so on) in the synthesis. This new design approach and methodology has improved the design process by shortening design time, reducing the number of design iterations, and increasing the design complexity that designers can manage.


The book has 14 chapters. This chapter gives a quick overview of VHDL history and usage. Chapter 2 summarizes VHDL basic language elements. Chapter 3 introduces the VHDL simulation concepts. Chapters 4 and 5 discuss VHDL sequential and concurrent statements respectively. Chapter 6 presents VHDL subprograms and packages. Chapter 7 discusses VHDL library and design unit concepts and configuration. Chapter 8 points out important issues of writing VHDL for synthesis. Chapter 9 illustrates writing VHDL for finite state machines. Chapter 10 discusses more behavioral modeling of file text I/O, ROM, RAM, pad models, guarded block, guarded signal, disconnect, and null constructs. Chapter 11 presents a small design case with test bench design techniques. Chapter 12 discusses an ALU design example. Chapter 13 describes a design case study that goes through the complete design process from the design concept, VHDL implementation, verification, test bench, layout, and post-layout verification. Chapter 14 summarizes VHDL'93 important updates.

In this book, many design examples with VHDL are used for simulation and synthesis illustrations. The original VHDL code is imported into the book with no modification so that readers can see the entire VHDL code (not just part of it). Every line of VHDL code has an associated line number for easy reference and discussion. The font used for the VHDL code portion is "Courier"-each character occupies the same width and characters line up vertically. This would be close to how an ASCII file appears when readers type in their VHDL code with any text editor. The schematics are generated with Synopsys synthesis tools and then imported. Note that the schematic can be different from what you may implement manually from your synthesis output. This is due to different technology component libraries and constraints that are used in the synthesis process. However, the synthesized schematic should represent and correspond functionally with the VHDL code. Three purposes are served by including the entire VHDL code, simulation, and synthesized schematic: (1) Typing errors in the VHDL code are avoided; (2) readers can use the code as examples for reference, exercises, and to build upon them; (3) readers will see the correspondence among VHDL code, simulation, and synthesis results.


1.1 What do VHSIC, VHDL, and VITAL stand for? 1.2 What advantages can we expect when using VHDL in digital designs? Do you agree on the advantages discussed in the text?

1.3 What is synthesis? Have you seen the terminology of "layout" synthesis? Can we say that C language compiler is a synthesis tool for C programming language?

1.4 In software design, the trend has been moving from writing machine dependent assembly languages to writing machine independent standard C high-level programming language. In hardware design, library dependent schematics can be created manually or library and technology independent VHDL code can be written to describe equivalent functions. Are there any similarities between software and hardware design? Do you agree that more and more digital designs will be using VHDL and synthesis just like the trend in software design?


Excerpted from Digital Design and Modeling with VHDL and Synthesis by K.C. Chang Excerpted by permission.
All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
Excerpts are provided by Dial-A-Book Inc. solely for the personal use of visitors to this web site.

Read More Show Less

Table of Contents


1.1 What Is VHDL?

1.2 VHDL Advantages.

1.3 What Is Logic Synthesis?.

1.4 New Design Methodology.

1.5 Book Overview.

1.6 Exercises.

Chapter 2: VHDL BASICS.

2.1 Lexial Elements, Separators, and Delimiters.

2.2 Identifiers.

2.3 Reserved Words.

2.4 Literals.

2.5 Package and Type.

2.6 Object Declaration.

2.7 Entity and Architecture.

2.8 Predefined Attributes.

2.9 Names and Operators.

2.10 Exercises.


3.1 The Concept of the Signal.

3.2 Process Concurrency.

3.3 Delta Time.

3.4 Concurrent and Sequential Statements.

3.5 Process Activation by a Signal Event.

3.6 Signal-Valued and Signal-Related Attributes.

3.7 Exercises.


4.1 Variable Assignment Statement.

4.2 Signal Assignment Statement.

4.3 If Statement.

4.4 Case Statement.

4.5 Loop Statement.

4.6 Next Statement.

4.7 Exit Statement.

4.8 Null Statement.

4.9 Procedure Call Statement.

4.10 Return Statement.

4.11 Assertion Statement.

4.12 Wait Statement.

4.13 Exercises.


5.1 Process Statement.

5.2 Assertion Statement.

5.3 Concurrent Procedure Call Statement.

5.4 Conditional Signal Assignment Statement.

5.5 Selected Signal Assignment Statement.

5.6 Component Instantiation Statement.

5.7 Generate Statement.

5.8 Block Statement.

5.9 Exercises.


6.1 Subprogram Declaration.

6.2 Subprogram Body.

6.3 Package Body.

6.4 Package Body.

6.5 Resolution Function.

6.6 Subprogram Overloading.

6.7 Subprogram Return Values and Types.

6.8 Type Casting and Type Qualification.

6.9 Exercises.


7.1 Architecture.

7.2 Entity Declaration.

7.3 Port Map and Generic Map.

7.4 Configuration.

7.5 Design Unit.

7.6 VHDL Library.

7.7 Block and Architecture Attributes.

7.8 Exercises.


8.1 General Guidelines of VHDL Synthesis.

8.2 Writing VHDL to Infer FlipFlops.

8.3 Writing VHDL to Infer Latches.

8.4 Writing VHDL to Infer Tristate Buffers.

8.5 Writing VHDL to Generate Combinational Circuits.

8.6 Putting Them Together.

8.7 Simulation versus Synthesis Differences.

8.8 Think About Hardware.

8.9 Use of Subprogram.

8.10 Synthesis Process.

8.11 Exercises.


9.1 Finite State Machine Background.

9.2 Writing VHDL for a FSM.

9.3 FSM Initialization.

9.4 FSM Flipflop Output Signal.

9.5 FSM Synthesis.

9.6 Exercises.


10.1 File Types and File I/O.

10.2 ROM Model.

10.3 Bidirectional Pad Model.

10.4 Attribute Declaration and Attribute Specification.

10.5 Access and Record Type.

10.6 Guarded Block.

10.7 Guarded Signal and Null Waveform.

10.8 Disconnection Specification.

10.9 Writing Efficient VHDL Code.

10.10 Exercises.


11.1 Design Description.

11.2 Writing VHDL Model.

11.3 Another Architecture.

11.4 A Test Bench.

11.5 Another Test Bench.

11.6 Synthesizing the Design.

11.7 Exercises.

Chapter 12: ALU DESIGN.

12.1 ALU Design Requirements.

12.2 Describing ALU with VHDL.

12.3 Improving the Design.

12.4 Simulate the Design with a Test Bench.

12.5 Exercises.


13.1 Design Requirements.

13.2 Functional VHDL Implementation.

13.3 VHDL Test Bench.

13.4 Synthesis and Layout.

13.5 Layout Backannotation and Verification.

13.6 VHDL Partitioning.

13.7 Exercises.

Chapter 14: VHDL'93.

14.1 More Regular Syntax.

14.2 Sequential Statements.

14.3 Concurrent Statements.

14.4 New Reserved Words.

14.5 Predifined STANDARD Package.

14.6 Attributes.

14.7 Direct Component Instantiation.

14.8 File and Text I/O.

14.9 Extended Identifier.

14.10 Exercises.





Read More Show Less

Customer Reviews

Be the first to write a review
( 0 )
Rating Distribution

5 Star


4 Star


3 Star


2 Star


1 Star


Your Rating:

Your Name: Create a Pen Name or

Barnes & Review Rules

Our reader reviews allow you to share your comments on titles you liked, or didn't, with others. By submitting an online review, you are representing to Barnes & that all information contained in your review is original and accurate in all respects, and that the submission of such content by you and the posting of such content by Barnes & does not and will not violate the rights of any third party. Please follow the rules below to help ensure that your review can be posted.

Reviews by Our Customers Under the Age of 13

We highly value and respect everyone's opinion concerning the titles we offer. However, we cannot allow persons under the age of 13 to have accounts at or to post customer reviews. Please see our Terms of Use for more details.

What to exclude from your review:

Please do not write about reviews, commentary, or information posted on the product page. If you see any errors in the information on the product page, please send us an email.

Reviews should not contain any of the following:

  • - HTML tags, profanity, obscenities, vulgarities, or comments that defame anyone
  • - Time-sensitive information such as tour dates, signings, lectures, etc.
  • - Single-word reviews. Other people will read your review to discover why you liked or didn't like the title. Be descriptive.
  • - Comments focusing on the author or that may ruin the ending for others
  • - Phone numbers, addresses, URLs
  • - Pricing and availability information or alternative ordering information
  • - Advertisements or commercial solicitation


  • - By submitting a review, you grant to Barnes & and its sublicensees the royalty-free, perpetual, irrevocable right and license to use the review in accordance with the Barnes & Terms of Use.
  • - Barnes & reserves the right not to post any review -- particularly those that do not follow the terms and conditions of these Rules. Barnes & also reserves the right to remove any review at any time without notice.
  • - See Terms of Use for other conditions and disclaimers.
Search for Products You'd Like to Recommend

Recommend other products that relate to your review. Just search for them below and share!

Create a Pen Name

Your Pen Name is your unique identity on It will appear on the reviews you write and other website activities. Your Pen Name cannot be edited, changed or deleted once submitted.

Your Pen Name can be any combination of alphanumeric characters (plus - and _), and must be at least two characters long.

Continue Anonymously

    If you find inappropriate content, please report it to Barnes & Noble
    Why is this product inappropriate?
    Comments (optional)