Book Description
Appropriate for all courses in digital IC or system design using the Verilog Hardware Description Language (HDL). Fully updated for the latest versions of Verilog HDL, this complete reference progresses logically from the most fundamental Verilog concepts to today's most advanced digital design techniques. Written for both experienced students and newcomers, it offers broad coverage of Verilog HDL from a practical design perspective.
One step at a time, Samir Palnitkar introduces students to gate, dataflow (RTL), behavioral, and switch level modeling; presents the Programming Language Interface (PLI); describes leading logic synthesis methodologies; explains timing and delay simulation; and introduces many other essential techniques for creating tomorrows complex digital designs. Palnitkar offers a wealth of proven Verilog HDL modeling tips, and more than 300 fully-updated illustrations, examples, and exercises. Each chapter contains detailed learning objectives and convenient summaries.
Verilog Tutorials (Deepark Kumar Tala, et al) Comprehensive and self contained, these tutorials cover the design of a plethora of combinational and sequential logic circuits using conventional logic design and Verilog HDL. Number systems and number representations are presented.
Verilog Beginner's Tutorial (Dan Gisselquist) This beginners Verilog tutorial attempts to fill some of the missing pieces in other tutorials. The goal is to take a beginner from knowing C and a little C++, all the way to a serial port example using both receiver, transmitter and FIFO.
Free Range VHDL: The No-frills Guide to Writing Powerful Code The purpose of this book is to provide students and young engineers with a guide to help them develop the skills necessary to be able to use VHDL for introductory and intermediate level digital design.
Guide to Synthesis and Tools for VHDL Modeling and Design This book 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 VHDL Golden Reference Guide (DOULOS) Packed with practical advice distilled from years of experience teaching VHDL courses, this book is designed for the experienced design engineer, offers answers to the questions most often asked during practical application, in a convenient reference format.
VHDL Handbook (Hardi Electronics) This book has become a standard reference in the industry for learning the features of VHDL and using it to verify hardware designs, with many complete examples used to illustrate the features of the VHDL language.
The VHDL Cookbook, First Edition (Peter J. Ashenden) The book begins with the basics of VHDL, which, like any software language, has keywords, operators, flow control statements, and programming conventions, then moves on to more complicated models, such as a design for a complete CPU.
VHDL Tutorials (Douglas L. Perry, Weijun Zhang) These tutorials give a brief overview of the VHDL language and is mainly intended as a companion for the Digital Design Laboratory. This writing aims to give the reader a quick introduction to VHDL and to give a complete or in-depth discussion of VHDL.
VHDL Reference Guide (Xilinx and Synopsys) This book is an essential guide for people working in computer hardware design and synthesis, combines a comprehensive reference of the VHDL syntax with tutorial and workshop materials that guide to the principles of digital hardware design.
Verilog HDL: A Guide to Digital Design and Synthesis, 2nd Edition This complete reference progresses logically from the most fundamental Verilog concepts to today's most advanced digital design techniques. Written for both experienced students and newcomers, it offers broad coverage of Verilog HDL from a practical design perspective.