The Verilog Programming Language Interface, commonly called the Verilog PU, is one of the more powerful features of Verilog. The PU provides a means for both hardware designers and software engineers to interface their own programs to commercial Verilog simulators. Through this interface, a Verilog simulator can be customized to perform virtually any engineering task desired. Just a few of the common uses of the PU include interfacing Veri log simulations to C language models, adding custom graphical tools to a simulator, reading and writing proprietary file formats from within a simulation, performing test coverage analysis during simulation, and so forth. The applications possible with the Verilog PLI are endless. Intended audience: this book is written for digital design engineers with a background in the Verilog Hardware Description Language and a fundamental knowledge of the C programming language. It is expected that the reader: Has a basic knowledge of hardware engineering, specifically digital design of ASIC and FPGA technologies.Is familiar with the Verilog Hardware Description Language (HDL), and can write models of hardware circuits in Verilog, can write simulation test fixtures in Verilog, and can run at least one Verilog logic simulator.Knows basic C-language programming, including the use of functions, pointers, structures and file I/O. Explanations of the concepts and terminology of digital
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The Verilog Programming Language Interface, commonly called the Verilog PU, is one of the more powerful features of Verilog.
List of Examples. Foreword. Acknowledgments. Introduction. Part One: The VPI Portion of the Verilog PLO Standard. 1. Creating PLI Applications Using VPI Routines. 2. Interfacing VPI based PLI Applications to Verilog Simulators. 3. How to Use the VPI Routines. 4. Details about the VPI Routine Library. 5. Reading and Modifying Values Using VPI Routines. 6. Synchronizing to Verilog Simulations Using VPI Callbacks. 7. Interfacing to C Models Using VPI Routines. Part Two: The TF/ACC Portion of the Verilog PLI Standard. 8. Creating PLI Applications Using TF and ACC Routines. 9. Interfacing TF/ACC PLI Applications to Verilog Simulators. 10. How to Use the TF Routines. 11. Reading and Writing Values Using TF Routines. 12. Synchronizing to Verilog Simulations Using Misctf Routines. 13. Interfacing to C Models Using TF Routines. 14. How to Use the ACC Routines. 15. Details on the ACC Routine Library. 16. Reading and Modifying Values Using ACC Routines. 17. Synchronizing to Simulations Using the Value Change Link. 18. Interfacing to C Models Using ACC Routines. Appendices: A. Linking PLI Applications to Verilog Simulators. B. The IEEE 1364-1995 VPI Routine Library. C. The IEEE 1364-1995 TF Routine Library. D. The IEEE 1364-1995 ACC Routine Library. Index.
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Produktdetaljer

ISBN
9781461372790
Publisert
2012-11-05
Utgiver
Vendor
Springer-Verlag New York Inc.
Vekt
1223 gr
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Forfatter

Biographical note

Mr. Stuart Sutherland is a member of the IEEE Verilog standards committee, where he is co-chair of the PLI standards task force and technical editor for the PLI sections of the IEEE 1364 Verilog Language Reference Manual. 

Mr. Sutherland has more than 14 years of experience in hardware design and over ten years of experience with Verilog. He is the founder of Sutherland HDL Inc., located in Portland Oregon. Sutherland HDL provides expert Verilog HDL and Verilog PLI design services, including training, modeling, design verification and software tool evaluation. Verilog training is one of the specialties of Sutherland HDL. Prior to founding Sutherland HDL in 1992, Mr. Sutherland was as an engineer at Sanders Display Products Division in New Hampshire, where he worked on high speed graphics systems for the defense industry. In 1988, he became a senior applications engineer for Gateway Design Automation, the founding company of Verilog. At Gateway, which was acquired by Cadence Design Systems in 1989, Mr. Sutherland specialized in training and support for logic simulation, timing analysis, fault simulation, and the Verilog PLI. Mr. Sutherland has also worked closely with several EDA vendors to specify, test and bring to market Verilog simulation products. 

Mr. Sutherland holds a Bachelor of Science in Computer Science, with an emphasis in Electronic Engineering Technology, from Weber State University (Ogden, Utah) and Franklin Pierce College (Nashua, New Hampshire). He has taught Verilog engineering courses at the University of California, Santa Cruz (Santa Clara extension), and has authored the popular "Verilog HDL Quick Reference Guide" and "Verilog PU Quick Reference Guide". He has presented tutorials and papers at the International Verilog Conference and at the International Cadence User's Group Conference, and has won awards for best speaker and best tutorial.