A Tutorial On Fpga Based System Design Using Verilog Hdl
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| Author | : Ming-Bo Lin |
| Publisher | : Createspace Independent Publishing Platform |
| Total Pages | : 352 |
| Release | : 2018-08-17 |
| Genre | : |
| ISBN | : 9781721530830 |
The contents of this book are designed on the basis of the problem- based-learning (PBL) approach and follow the paradigm: design -> entry (in both schematic and HDL) -> verification as well as implementation. Based on this paradigm, we develop an incremental learn-by-doing method to help the student to build a sound understanding in both the design principles and the implementa-tions of digital systems based on FPGA devices. Features of this book include - Lab projects are exercised with schematic entry first and then Verilog HDL entry. - Both functional and timing verification are performed in each entry method to ensure the resulting design can work properly in FPGA devices. - The incremental learn-by-doing method is applied to gradually introduce new concepts and hardware resources and increase the depth of lab projects. - The paradigm, design -> entry (in both schematic and HDL) -> verification as well as implementation, is employed to familiarize the reader with the right concept and use of the HDL entry method. - Optional lab projects are provided for readers to make realistic tests on FPGA devices. - Extended lab projects to broaden the reader's background knowledge and ca-pability. This book can be used as the textbook for the following courses: Digital Logic Design Practice, Introduction to FPGA-Based System Design, Introduction to Digital System Practice, and Introduction to Verilog HDL.
| Author | : Ming-Bo Lin |
| Publisher | : Createspace Independent Publishing Platform |
| Total Pages | : 342 |
| Release | : 2018-08-09 |
| Genre | : |
| ISBN | : 9781721530380 |
The contents of this book are designed on the basis of the problem- based-learning (PBL) approach and follow the paradigm: design -> entry (in both schematic and HDL) -> verification as well as implementation. Based on this paradigm, we develop an incremental learn-by-doing method to help the student to build a sound understanding in both the design principles and the implementa-tions of digital systems based on FPGA devices. Features of this book include - Lab projects are exercised with schematic entry first and then Verilog HDL entry. - Both functional and timing verification are performed in each entry method to ensure the resulting design can work properly in FPGA devices. - The incremental learn-by-doing method is applied to gradually introduce new concepts and hardware resources and increase the depth of lab projects. - The paradigm, design -> entry (in both schematic and HDL) -> verification as well as implementation, is employed to familiarize the reader with the right concept and use of the HDL entry method. - Optional lab projects are provided for readers to make realistic tests on FPGA devices. - Extended lab projects to broaden the reader's background knowledge and ca-pability. This book can be used as the textbook for the following courses: Digital Logic Design Practice, Introduction to FPGA-Based System Design, Introduction to Digital System Practice, and Introduction to Verilog HDL.
| Author | : Ming-Bo Lin |
| Publisher | : Createspace Independent Publishing Platform |
| Total Pages | : 332 |
| Release | : 2018-08-17 |
| Genre | : |
| ISBN | : 9781721530441 |
The contents of this book are designed on the basis of the problem- based-learning (PBL) approach and follow the paradigm: design -> entry (in both schematic and HDL) -> verification as well as implementation. Based on this paradigm, we develop an incremental learn-by-doing method to help the student to build a sound understanding in both the design principles and the implementations of digital systems based on FPGA devices. Features of this book include - Lab projects are exercised with schematic entry first and then Verilog HDL entry. - Both functional and timing verification are performed in each entry method to ensure the resulting design can work properly in FPGA devices. - The incremental learn-by-doing method is applied to gradually introduce new concepts and hardware resources and increase the depth of lab projects. - The paradigm, design -> entry (in both schematic and HDL) -> verification as well as implementation, is employed to familiarize the reader with the right concept and use of the HDL entry method. - Optional lab projects are provided for readers to make realistic tests on FPGA devices. - Extended lab projects to broaden the reader's background knowledge and capability. This book can be used as the textbook for the following courses: Digital Logic Design Practice, Introduction to FPGA-Based System Design, Introduction to Digital System Practice, and Introduction to Verilog HDL.
| Author | : Ming-Bo Lin |
| Publisher | : Createspace Independent Publishing Platform |
| Total Pages | : 392 |
| Release | : 2018-08-17 |
| Genre | : |
| ISBN | : 9781721530809 |
The contents of this book are designed on the basis of the problem- based-learning (PBL) approach and follow the paradigm: design -> entry (in both schematic and HDL) -> verification as well as implementation. Based on this paradigm, we develop an incremental learn-by-doing method to help the student to build a sound understanding in both the design principles and the implementa-tions of digital systems based on FPGA devices. Features of this book include - Lab projects are exercised with schematic entry first and then Verilog HDL entry. - Both functional and timing verification are performed in each entry method to ensure the resulting design can work properly in FPGA devices. - The incremental learn-by-doing method is applied to gradually introduce new concepts and hardware resources and increase the depth of lab projects. - The paradigm, design -> entry (in both schematic and HDL) -> verification as well as implementation, is employed to familiarize the reader with the right concept and use of the HDL entry method. - Optional lab projects are provided for readers to make realistic tests on FPGA devices. - Extended lab projects to broaden the reader's background knowledge and ca-pability. This book can be used as the textbook for the following courses: Digital Logic Design Practice, Introduction to FPGA-Based System Design, Introduction to Digital System Practice, and Introduction to Verilog HDL.
| Author | : Ming-Bo Lin |
| Publisher | : Createspace Independent Publishing Platform |
| Total Pages | : 384 |
| Release | : 2018-08-07 |
| Genre | : |
| ISBN | : 9781721530571 |
The contents of this book are designed on the basis of the problem- based-learning (PBL) approach and follow the paradigm: design -> entry (in both schematic and HDL) -> verification as well as implementation. Based on this paradigm, we develop an incremental learn-by-doing method to help the student to build a sound understanding in both the design principles and the implementa-tions of digital systems based on FPGA devices. Features of this book include - Lab projects are exercised with schematic entry first and then Verilog HDL entry. - Both functional and timing verification are performed in each entry method to ensure the resulting design can work properly in FPGA devices. - The incremental learn-by-doing method is applied to gradually introduce new concepts and hardware resources and increase the depth of lab projects. - The paradigm, design -> entry (in both schematic and HDL) -> verification as well as implementation, is employed to familiarize the reader with the right concept and use of the HDL entry method. - Optional lab projects are provided for readers to make realistic tests on FPGA devices. - Extended lab projects to broaden the reader's background knowledge and ca-pability. This book can be used as the textbook for the following courses: Digital Logic Design Practice, Introduction to FPGA-Based System Design, Introduction to Digital System Practice, and Introduction to Verilog HDL.
| Author | : Dr. Cherry Sarma Bhargava, Dr. Rajkumar |
| Publisher | : BPB Publications |
| Total Pages | : 235 |
| Release | : 2020-09-03 |
| Genre | : Technology & Engineering |
| ISBN | : 9389898056 |
Get familiar and work with the basic and advanced Modeling types in Verilog HDL Key Features a- Learn about the step-wise process to use Verilog design tools such as Xilinx, Vivado, Cadence NC-SIM a- Explore the various types of HDL and its need a- Learn Verilog HDL modeling types using examples a- Learn advanced concept such as UDP, Switch level modeling a- Learn about FPGA based prototyping of the digital system Description Hardware Description Language (HDL) allows analysis and simulation of digital logic and circuits. The HDL is an integral part of the EDA (electronic design automation) tool for PLDs, microprocessors, and ASICs. So, HDL is used to describe a Digital System. The combinational and sequential logic circuits can be described easily using HDL. Verilog HDL, standardized as IEEE 1364, is a hardware description language used to model electronic systems. This book is a comprehensive guide about the digital system and its design using various VLSI design tools as well as Verilog HDL. The step-wise procedure to use various VLSI tools such as Xilinx, Vivado, Cadence NC-SIM, is covered in this book. It also explains the advanced concept such as User Define Primitives (UDP), switch level modeling, reconfigurable computing, etc. Finally, this book ends with FPGA based prototyping of the digital system. By the end of this book, you will understand everything related to digital system design. What will you learn a- Implement Adder, Subtractor, Adder-Cum-Subtractor using Verilog HDL a- Explore the various Modeling styles in Verilog HDL a- Implement Switch level modeling using Verilog HDL a- Get familiar with advanced modeling techniques in Verilog HDL a- Get to know more about FPGA based prototyping using Verilog HDL Who this book is for Anyone interested in Electronics and VLSI design and want to learn Digital System Design with Verilog HDL will find this book useful. IC developers can also use this book as a quick reference for Verilog HDL fundamentals & features. Table of Contents 1. An Introduction to VLSI Design Tools 2. Need of Hardware Description Language (HDL) 3. Logic Gate Implementation in Verilog HDL 4. Adder-Subtractor Implementation Using Verilog HDL 5. Multiplexer/Demultiplexer Implementation in Verilog HDL 6. Encoder/Decoder Implementation Using Verilog HDL 7. Magnitude Comparator Implementation Using Verilog HDL 8. Flip-Flop Implementation Using Verilog HDL 9. Shift Registers Implementation Using Verilog HDL 10. Counter Implementation Using Verilog HDL 11. Shift Register Counter Implementation Using Verilog HDL 12. Advanced Modeling Techniques 13. Switch Level Modeling 14. FPGA Prototyping in Verilog HDL About the Author Dr. Cherry Bhargava is working as an associate professor and head, VLSI domain, School of Electrical and Electronics Engineering at Lovely Professional University, Punjab, India. She has more than 14 years of teaching and research experience. She is Ph.D. (ECE), IKGPTU, M.Tech (VLSI Design & CAD) Thapar University and B.Tech (Electronics and Instrumentation) from Kurukshetra University. She is GATE qualified with All India Rank 428. She has authored about 50 technical research papers in SCI, Scopus indexed quality journals, and national/international conferences. She has eleven books related to reliability, artificial intelligence, and digital electronics to her credit. She has registered five copyrights and filed twenty-two patents. Your LinkedIn Profile https://in.linkedin.com/in/dr-cherry-bhargava-7315619 Dr. Rajkumar Sarma received his B.E. in Electronics and Communications Engineering from Vinayaka Mission's University, Salem, India & M.Tech degree from Lovely Professional University, Phagwara, Punjab and currently pursuing Ph.D. from Lovely Professional University, Phagwara, Punjab. Your LinkedIn Profile www.linkedin.com/in/rajkumar-sarma-213657126
| Author | : Shirshendu Roy |
| Publisher | : Springer Nature |
| Total Pages | : 466 |
| Release | : 2023-09-25 |
| Genre | : Technology & Engineering |
| ISBN | : 3031410858 |
The book is designed to serve as a textbook for courses offered to undergraduate and graduate students enrolled in electrical, electronics, and communication engineering. The objective of this book is to help the readers to understand the concepts of digital system design as well as to motivate the students to pursue research in this field. Verilog Hardware Description Language (HDL) is preferred in this book to realize digital architectures. Concepts of Verilog HDL are discussed in a separate chapter and many Verilog codes are given in this book for better understanding. Concepts of system Verilog to realize digital hardware are also discussed in a separate chapter. The book covers basic topics of digital logic design like binary number systems, combinational circuit design, sequential circuit design, and finite state machine (FSM) design. The book also covers some advanced topics on digital arithmetic like design of high-speed adders, multipliers, dividers, square root circuits, and CORDIC block. The readers can learn about FPGA and ASIC implementation steps and issues that arise at the time of implementation. One chapter of the book is dedicated to study the low-power design techniques and another to discuss the concepts of static time analysis (STA) of a digital system. Design and implementation of many digital systems are discussed in detail in a separate chapter. In the last chapter, basics of some advanced FPGA design techniques like partial re-configuration and system on chip (SoC) implementation are discussed. These designs can help the readers to design their architecture. This book can be very helpful to both undergraduate and postgraduate students and researchers.
| Author | : Suman Lata Tripathi |
| Publisher | : John Wiley & Sons |
| Total Pages | : 228 |
| Release | : 2021-12-29 |
| Genre | : Technology & Engineering |
| ISBN | : 1119778042 |
Master digital design with VLSI and Verilog using this up-to-date and comprehensive resource from leaders in the field Digital VLSI Design Problems and Solution with Verilog delivers an expertly crafted treatment of the fundamental concepts of digital design and digital design verification with Verilog HDL. The book includes the foundational knowledge that is crucial for beginners to grasp, along with more advanced coverage suitable for research students working in the area of VLSI design. Including digital design information from the switch level to FPGA-based implementation using hardware description language (HDL), the distinguished authors have created a one-stop resource for anyone in the field of VLSI design. Through eleven insightful chapters, youll learn the concepts behind digital circuit design, including combinational and sequential circuit design fundamentals based on Boolean algebra. Youll also discover comprehensive treatments of topics like logic functionality of complex digital circuits with Verilog, using software simulators like ISim of Xilinx. The distinguished authors have included additional topics as well, like: A discussion of programming techniques in Verilog, including gate level modeling, model instantiation, dataflow modeling, and behavioral modeling A treatment of programmable and reconfigurable devices, including logic synthesis, introduction of PLDs, and the basics of FPGA architecture An introduction to System Verilog, including its distinct features and a comparison of Verilog with System Verilog A project based on Verilog HDLs, with real-time examples implemented using Verilog code on an FPGA board Perfect for undergraduate and graduate students in electronics engineering and computer science engineering, Digital VLSI Design Problems and Solution with Verilogalso has a place on the bookshelves of academic researchers and private industry professionals in these fields.
| Author | : Ming-Bo Lin |
| Publisher | : CreateSpace |
| Total Pages | : 824 |
| Release | : 2015-07-27 |
| Genre | : |
| ISBN | : 9781514313305 |
With the advance of semiconductor and communication technologies, the use of systemon-a-chip (SoC) has become an essential technique to decrease product costs. To design and implement an SoC-based product, it proves necessary to totally or partly rely on the hardware description language (HDL) synthesis flow and field programmable gata array (FPGA) devices or cell libraries. As a consequence, it has become an important attainment for electrical engineers to develop a good understanding of the key issues of HDL design flows based on FPGA devices or cell libraries. To achieve this, this book addresses the need for teaching such a topic based on Verilog HDL and FPGAs. This book, Digital System Designs and Practices: Using Verilog HDL and FPGAs, aim to be used as a text for students and as a reference book for professionals or a self-study book for readers. For classroom use, each chapter includes many worked examples and review questions for helping readers test their understanding of the contents. In addition, throughout the book, an abundance of worked examples are provided for helping readers realize the basic features of Verilog HDL and grasp the essentials of digital system designs as well. The contents of this book largely stem from the course FPGA System Designs and Practices, offered at our campus over the past decade. This course is an undergraduate elective and the first-year graduate course. This book is so structured that it can be used as a sequence of courses, including Hardware Description Language, FPGA System Designs and Practices, Digital System Designs, Advanced Digital System Designs, and others. HDL-based design has become an essential technique for modern digital systems. This book focuses on developing, verifying, and synthesizing designs of practical digital systems using the most widely used hardware description Language: Verilog HDL and FPGAs. The main features of this book are: -- Explains how to perform synthesis and verification to achieve optimized synthesis results and compiler times -- Offers complete coverage of Verilog HDL syntax -- Illustrates the entire design and verification flow using an FPGA case study -- Presents many real-world worked design examples -- Gives readers deeper understanding with review questions in each section and end-of-chapter problems -- Emphasizes design/implementation tradeoff options, with coverage of ASICs and FPGAs
| Author | : Ming-Bo Lin |
| Publisher | : Createspace Independent Publishing Platform |
| Total Pages | : 440 |
| Release | : 2018-07-30 |
| Genre | : |
| ISBN | : 9781721530199 |
With the advance of semiconductor and communication industry, the use of system-on-chip (SoC) has become an essential technique to reduce product costs. The development of a good understanding of the key stages of the hardware description language (HDL) design flow based on cell-based libraries or field-programmable gate array (FPGA) devices becomes essential. This book addresses the needs for such a topic based on Verilog HDL and FPGAs. The most important features of this book include HDL-based design has become an essential technique for modern digital systems. This book focuses on developing, verifying, and synthesizing designs of practical digital systems using the most widely used hardware description Language: Verilog HDL and FPGAs. The main features of this book include: - Explaining how to perform synthesis and verification to achieve optimized synthesis results and compiler times - Illustrating the entire design and verification flow using an FPGA case study - Emphasizing design/implementation trade-off options, with coverage of ASICs and FPGAs - Providing plentiful worked examples and review questions in each section for readers to test their understanding of the related topics - Giving readers deeper understanding with plentiful review questions in each section and end-of-chapter problems - Incorporating many case studies to help the reader grasp the essentials of practical digital systems to be designed using Verilog HDL and FPGAs - Highlighting Verilog HDL syntax throughout the book to facilitate readers to refer the desired syntax as they need - Printing all keywords in boldface throughout the book to emphasize the language structures and improve the readability of Verilog HDL modules This book is the ideal textbook for the following courses: Digital System Design, FPGA System Designs and Practices, Advanced Digital Systems Design, and the like. In addition, it can be used as a self-studying or professional reference book in this field.
