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Application Specific Integrated Circuit (ASIC) Technology explores and discusses the different aspects of the ASIC technology experienced during the 1990s. The topics of the chapters range from the ASIC business, model, marketing, and development up to its testability, packaging, and quality and reliability. An introductory chapter begins the discussion and tackles the historical perspective and the classification of the ASIC technology. Chapters 2 and 3 cover the business side of the technology as it discusses the market dynamics and marketing strategies. The following chapters focus on the product itself and deal with the design and model and library development. Computer-aided design tools and systems are included in the discussion. Manufacturing and packaging of ASICs are also given attention in the book. Finally, the last three chapters present the application, testability, and reliability of ASIC technology. The text can be of most help to students in the fields of microelectronics, computer technology, and engineering.
This comprehensive book on application-specific integrated circuits (ASICs) describes the latest methods in VLSI-systems design. ASIC design, using commercial tools and pre-designed cell libraries, is the fastest, most cost-effective, and least error-prone method of IC design. As a consequence, ASICs and ASIC-design methods have become increasingly popular in industry for a wide range of applications. The book covers both semicustom and programmable ASIC types. After describing the fundamentals of digital logic design and the physical features of each ASIC type, the book turns to ASIC logic design - design entry, logic synthesis, simulation, and test - and then to physical design - partition...
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Arranged in a format that follows the industry-common ASIC physical design flow, Physical Design Essentials begins with general concepts of an ASIC library, then examines floorplanning, placement, routing, verification, and finally, testing. Among the topics covered are Basic standard cell design, transistor-sizing, and layout styles; Linear, non-linear, and polynomial characterization; Physical design constraints and floorplanning styles; Algorithms used for placement; Clock Tree Synthesis; Parasitic extraction; Electronic Testing, and many more.
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.
he very name application-specific integrated circuit, or ASIC, con T notes an ability to provide a dense package for a highly complex design targeted at a focused, often complex solution. The ability to create customized high-performance designs has come of age, facilitated by so phisticated tools that enable designers to cope with ever-increasing de mands for added product functionality, features, and complexity. Most designers are trained in the traditional methods of approaching complex digital electronics with standard parts but have little, if any, exposure to custom or even semicustom integrated circuit design. Most see only a broad survey of IC technology. This book is targeted at the...
The field of application-specific integrated circuits (ASICs) is fast-paced being at the very forefront of modern nanoscale fabrication and presents a deeply engaging career path. ASICs can provide us with high-speed computation in the case of digital circuits. For example, central processing units, graphics processing units, field-programmable gate arrays, and custom-made digital signal processors are examples of ASICs and the transistors they are fabricated from. We can use that same technology complementary metal-oxide semiconductor processes to implement high-precision sensing of or interfacing to the world through analog-to-digital converters, digital-to-analog converters, custom image ...
A new approach to the study of arithmetic circuits In Synthesis of Arithmetic Circuits: FPGA, ASIC and Embedded Systems, the authors take a novel approach of presenting methods and examples for the synthesis of arithmetic circuits that better reflects the needs of today's computer system designers and engineers. Unlike other publications that limit discussion to arithmetic units for general-purpose computers, this text features a practical focus on embedded systems. Following an introductory chapter, the publication is divided into two parts. The first part, Mathematical Aspects and Algorithms, includes mathematical background, number representation, addition and subtraction, multiplication,...
"Both inspirational and practical, ASIC Design in the Silicon Sandbox offers electronics engineers a hands-on guide to mixed-signal circuits and layouts. The book provides a detailed roadmap for designing and building custom circuits that are optimized for target devices, providing enhanced functionality and lowered cost in finished products.
The tools and techniques you need to break the analog design bottleneck! Ten years ago, analog seemed to be a dead-end technology. Today, System-on-Chip (SoC) designs are increasingly mixed-signal designs. With the advent of application-specific integrated circuits (ASIC) technologies that can integrate both analog and digital functions on a single chip, analog has become more crucial than ever to the design process. Today, designers are moving beyond hand-crafted, one-transistor-at-a-time methods. They are using new circuit and physical synthesis tools to design practical analog circuits; new modeling and analysis tools to allow rapid exploration of system level alternatives; and new simula...