HDL Programming Fundamentals: VHDL and Verilog (Davinci Engineering)
| Author | : | |
| Rating | : | 4.91 (813 Votes) |
| Asin | : | 1584508558 |
| Format Type | : | paperback |
| Number of Pages | : | 506 Pages |
| Publish Date | : | 2013-02-15 |
| Language | : | English |
DESCRIPTION:
He has a Ph.D. Botros (Carbondale, IL) is a professor in the Department of Electrical and Computer Engineering at the University of Southern Illinois. in electrical engineering from the University of Oklahoma, and over 25 years of teaching experience in areas including Instrumentation, Artificial Intelligence, Computer Architecture, Digital Hardware Design, HDL, and Digital Signal
John A. Eldon said good bilingual introduction. Since this is one of the very few bilingual HDL textbooks, I have adopted it for my graduate-level introductory HDL-based design class. The author has been extremely cordial and helpful in handling my questions and comments via email, and I really like the book's extensive use of examples. My biggest gripes are the failure to embrace several Verilog "good bilingual introduction" according to John A. Eldon. Since this is one of the very few bilingual HDL textbooks, I have adopted it for my graduate-level introductory HDL-based design class. The author has been extremely cordial and helpful in handling my questions and comments via email, and I really like the book's extensive use of examples. My biggest gripes are the failure to embrace several Verilog 2001 constructs and the lack of test bench discussion. (I always start my class with a simple test bench example, to show the students how to get u. 001 constructs and the lack of test bench discussion. (I always start my class with a simple test bench example, to show the students how to get u. Good reference for translating vhdl to verilog or vice versa. Michael S. Treseler I expect that this is the only book in print with vhdl-93 and verilog-95 examples side by side. For this reason it is a good reference for anyone knowing vhdl or verilog and wishing to quickly learn the other language for synthesis. Appendix B is a good cross reference for the two description languages.This book does not cover HDL simulation and there are no testbench examples. The synthesis coverage of both languages is shallow. However for a designer who already knows one language and needs t. "Good but not great." according to Christopher Hart. The author of the book is actually my professor and even though the book if part of the class we rarely follow the material. Additionally the book was designed around Dr. Botros' specialization in biomedical engineering. The class has both graduate (BME) students as well as undergrad (ECE) students. Many of the labs are based on problems from the book however the book has its flaws.Pros:1. Compares both VHDL and Verilog codes together throughout the book.2. Fairly well organized.Good but not great. The author of the book is actually my professor and even though the book if part of the class we rarely follow the material. Additionally the book was designed around Dr. Botros' specialization in biomedical engineering. The class has both graduate (BME) students as well as undergrad (ECE) students. Many of the labs are based on problems from the book however the book has its flaws.Pros:1. Compares both VHDL and Verilog codes together throughout the book.2. Fairly well organized.3. With some pr. . With some pr
Unlike other texts, this book covers both IEEE standardized HDL languages: VHDL and Verilog. Advances in semiconductor technology continue to increase the power and complexity of digital systems. HDL Programming Fundamentals: VHDL and Verilog teaches students the essentials of HDL and the functionality of the digital components of a system. Both of these languages are widely used in industry and academia and have similar logic, but are different in style and syntax. The text starts with the basic concepts of HDL, and covers the key topics such as data flow modeling, behavioral modeling, gate-level modeling, and advanced programming. Several comprehensive projects are included to show HDL in practical application, including examples of digital logic design, computer architecture, modern bioengineering, and simulation.. Hardware Description Language (HDL) is an essential CAD tool that offers designers an efficient way for implementing and synthesizing the design on a chip. To design such systems requires a strong knowledge of Application Specific Integrated Circuits (ASICs) and Field Programmable Gate Arrays (FPGAs), as well as the CAD tools required. By learning both la
About the Author Nazeih M. He has published articles in Journal of Control & Intelligent Systems, International Journal of Robotics and Automation, International Journal of Modeling and Simulation, and International Journal of Microcomputer Applications, and has spoken at various industry conferences. He has a Ph.D. in electrical engineering from the University of Oklahoma, and over 25 years of teaching experience in areas including Instrumentation, Artificial Intelligence, Computer Architecture, Digital Hardware Design, HDL, and Digital Signal Analysis. Botros (Carbondale, IL) is a professor in the Department of Electrical and Computer Engineering at the University of Southern Illinois.