This book details molecular methodologies used in identifying a disease gene, from the initial stage of study design to the next stage of preliminary locus identification, and ending with stages involved in target characterization and validation.
An introduction to VHDL, clarifying the language by presenting a subset of VHDL so readers can quickly start writing models. It presents the most common usage instead of describing the complete syntax of language constructs. tutorial to demonstrate the primary modelling features. It also provides illustrative examples that explain the different formulations of the language constructs and their semantics.
Design Recipes for FPGAs: Using Verilog and VHDL provides a rich toolbox of design techniques and templates to solve practical, every-day problems using FPGAs. Using a modular structure, the book gives 'easy-to-find' design techniques and templates at all levels, together with functional code. Written in an informal and 'easy-to-grasp' style, it goes beyond the principles of FPGA s and hardware description languages to actually demonstrate how specific designs can be synthesized, simulated and downloaded onto an FPGA. This book's 'easy-to-find' structure begins with a design application to demonstrate the key building blocks of FPGA design and how to connect them, enabling the experienced FPGA designer to quickly select the right design for their application, while providing the less experienced a 'road map' to solving their specific design problem. The book also provides advanced techniques to create 'real world' designs that fit the device required and which are fast and reliable to implement. This text will appeal to FPGA designers of all levels of experience. It is also an ideal resource for embedded system development engineers, hardware and software engineers, and undergraduates and postgraduates studying an embedded system which focuses on FPGA design. - A rich toolbox of practical FGPA design techniques at an engineer's finger tips - Easy-to-find structure that allows the engineer to quickly locate the information to solve their FGPA design problem, and obtain the level of detail and understanding needed
DESCRIPTION: (This softcover edition of the book has no accompanying CD). This is a beginner's book on SystemC targeted for both system designers as well as logic designers. Designers who already know VHDL or Verilog HDL will find the book very easy to read and learn about SystemC. Designers can in a very short time start writing SystemC models and simulating them with the information provided in the book. An excellent foreword has been provided by Stan Krolikoski, the Open SystemC Initiative Chairman -- " ...a primer that gradually introduces the reader to the complexities of SystemC by reference to common digital design concepts ..." REVIEW: "Is easy to understand for anyone with digital logic design background . . . suitable as an introduction book to SystemC . . . Examples are very helpful" - Xiaoyan Huang "I enjoyed reading the SystemC Primer book. It was very easy to read and the examples were excellent. I feel like I have a good understanding of the language. I felt that the examples showed the positive attributes of the new language specifically the parameterization of models so they can be reusable. By using the examples the designer can focus more on the design itself and not the language" - Jean Witinski "This is a very useful book for those interested in SystemC for hardware design. It has many practical examples and gives pragmatic advice on what is possible with hardware synthesis" - Grant Martin, Fellow, Cadence Labs "This book provides an excellent introduction to SystemC. SystemC concepts are clearly explained and illustrated with practical examples. It is a must read for people interested in modeling hardware in SystemC" - Abhijit Ghosh, Synopsys "This is definitely a reference for designers who want to learn SystemC. Numerous examples guide the reader towards a sound understanding of the language. Higher level SystemC features are introduced and not kept aside. Bottom line, a very good book to SystemC . . . " - Yves Vanderperren, Alcatel Microelectronics "Excellent introduction to SystemC constructs explained with detailed examples, complete with corresponding logic diagrams. A must for every SystemC designer's desk" - Sanjiv Narayan "I enjoyed reading it. Recommended to designers learning SystemC for modeling and synthesis . . . it will also be welcomed on both graduate and advanced undergraduate courses" - David Long, Doulos "Well suited as a text book for students and a great value for hardware designers that want to get started with SystemC" - Bernhard Niemann, Fraunhofer Institute for Integrated Circuits
This book provides an invaluable primer on the techniques utilized in the design of low power digital semiconductor devices. Readers will benefit from the hands-on approach which starts form the ground-up, explaining with basic examples what power is, how it is measured and how it impacts on the design process of application-specific integrated circuits (ASICs). The authors use both the Unified Power Format (UPF) and Common Power Format (CPF) to describe in detail the power intent for an ASIC and then guide readers through a variety of architectural and implementation techniques that will help meet the power intent. From analyzing system power consumption, to techniques that can be employed in a low power design, to a detailed description of two alternate standards for capturing the power directives at various phases of the design, this book is filled with information that will give ASIC designers a competitive edge in low-power design.
This introduction to VHDL focuses on the features engineers need to get results, with extensive practice examples so they can write VHDL models immediately. Bhasker is one of the world's leading VHDL course developers.
VHDL Starter's Guide has been written for the student and practitioner alike as a clear and concise tutorial on VHDL (VHSIC Hardware Description Language). It provides a hands-on, step-by-step introduction to learning VHDL as an applied language to be used in the design and testing of digital logic networks. Command syntax and structure are emphasized, and the writing is based on many examples of "real-world" logic circuits.
Complete with coverage of the latest VHDL93 standard, this edition offers engineers a thorough guide to the use of VHDL hardware description language in the analysis, simulation, and modeling of complicated microelectronic circuits. Extensive worked problems and examples listed in Verilog as well as VHDL set this edition apart from other VHDL texts.