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A methodology for using domino logic in an ASIC design flow for graduate students, researchers, and circuit designers in industry.
This book carefully details design tools and techniques for high-performance ASIC design. Using these techniques, the performance of ASIC designs can be improved by two to three times. Important topics include: Improving performance through microarchitecture; Timing-driven floorplanning; Controlling and exploiting clock skew; High performance latch-based design in an ASIC methodology; Automatically identifying and synthesizing complex logic gates; Automated cell sizing to increase performance and reduce power; Controlling process variation.These techniques are illustrated by designs running two to three times the speed of typical ASICs in the same process generation.
Discussing ASIC techniques of designing, troubleshooting and evaluating application specific integrated circuit chips, this book explores the concepts, principles and methods of high performance ASIC design. It covers the pros and cons of CAD tools, and discusses product customization.
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 new ASIC designer who is getting ready to tackle that first ASIC design and is concerned about the unknowns that lie ahead. Economic and perfor mance considerations as well as tool capability and process fabrication quality have evolved to the point where consideration of ASIC design is now commonplace in an ever-increasing number of electronic systems designs. Engineers are now given the challenge of coping not only with new technologies but with new design methodologies that are fundamen tally necessary and advantageous to support new competitive high-tech products. Laypeople and engineers alike have marveled at the advances made over the years in electronics' complexity, performance, density, and cost. The migration of systems to modules to boards to integrated circuits clearly underscores the radical transition that the physical incarnation of electronics has undergone.
Over the past several decades, applications permeated by advances in digital signal processing have undergone unprecedented growth in capabilities. The editors and authors of High Performance Embedded Computing Handbook: A Systems Perspective have been significant contributors to this field, and the principles and techniques presented in the handbook are reinforced by examples drawn from their work. The chapters cover system components found in today’s HPEC systems by addressing design trade-offs, implementation options, and techniques of the trade, then solidifying the concepts with specific HPEC system examples. This approach provides a more valuable learning tool, Because readers learn about these subject areas through factual implementation cases drawn from the contributing authors’ own experiences. Discussions include: Key subsystems and components Computational characteristics of high performance embedded algorithms and applications Front-end real-time processor technologies such as analog-to-digital conversion, application-specific integrated circuits, field programmable gate arrays, and intellectual property–based design Programmable HPEC systems technology, including interconnection fabrics, parallel and distributed processing, performance metrics and software architecture, and automatic code parallelization and optimization Examples of complex HPEC systems representative of actual prototype developments Application examples, including radar, communications, electro-optical, and sonar applications The handbook is organized around a canonical framework that helps readers navigate through the chapters, and it concludes with a discussion of future trends in HPEC systems. The material is covered at a level suitable for practicing engineers and HPEC computational practitioners and is easily adaptable to their own implementation requirements.
Explains how to use low power design in an automated design flow, and examine the design time and performance trade-offs Includes the latest tools and techniques for low power design applied in an ASIC design flow Focuses on low power in an automated design methodology, a much neglected area
This book describes simple to complex ASIC design practical scenarios using Verilog. It builds a story from the basic fundamentals of ASIC designs to advanced RTL design concepts using Verilog. Looking at current trends of miniaturization, the contents provide practical information on the issues in ASIC design and synthesis using Synopsys DC and their solution. The book explains how to write efficient RTL using Verilog and how to improve design performance. It also covers architecture design strategies, multiple clock domain designs, low-power design techniques, DFT, pre-layout STA and the overall ASIC design flow with case studies. The contents of this book will be useful to practicing hardware engineers, students, and hobbyists looking to learn about ASIC design and synthesis.
The latest techniques for designing robust, high performance integrated circuits in nanoscale technologies Focusing on a new technological paradigm, this practical guide describes the interconnect-centric design methodologies that are now the major focus of nanoscale integrated circuits (ICs). High Performance Integrated Circuit Design begins by discussing the dominant role of on-chip interconnects and provides an overview of technology scaling. The book goes on to cover data signaling, power management, synchronization, and substrate-aware design. Specific design constraints and methodologies unique to each type of interconnect are addressed. This comprehensive volume also explains the design of specialized circuits such as tapered buffers and repeaters for data signaling, voltage regulators for power management, and phase-locked loops for synchronization. This is an invaluable resource for students, researchers, and engineers working in the area of high performance ICs. Coverage includes: Technology scaling Interconnect modeling and extraction Signal propagation and delay analysis Interconnect coupling noise Global signaling Power generation Power distribution networks CAD of power networks Techniques to reduce power supply noise Power dissipation Synchronization theory and tradeoffs Synchronous system characteristics On-chip clock generation and distribution Substrate noise in mixed-signal ICs Techniques to reduce substrate noise
"This comprehensive collection of papers offers you practical information that can be used to develop high-performance digital system design. Specially written introductions by editor Vojin G. Oklobdzija precede each chapter to aid your understanding of the most relevant topics in this advanced area of circuit design. Featured topics include: * Differential pass-transistor logic * High-speed circuits and design of high-performance systems * Advanced deep submicron circuits used in high-speed computers and digital circuits * Clocking and latch design essential to high-performance systems * Relationships between VLSI algorithms and implementation techniques HIGH PERFORMANCE SYSTEM DESIGN: Circuits and Logic is indispensable reading for circuit designers, practicing engineers, and students who want to master the basic principles underlying high-performance system design. This handy, single volume provides a useful reference to a collection of accumulated experience necessary for good, successful designs. Professors: To request an examination copy simply e-mail [email protected]." Sponsored by: IEEE Solid-State Circuits Council/Society.
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 new ASIC designer who is getting ready to tackle that first ASIC design and is concerned about the unknowns that lie ahead. Economic and perfor mance considerations as well as tool capability and process fabrication quality have evolved to the point where consideration of ASIC design is now commonplace in an ever-increasing number of electronic systems designs. Engineers are now given the challenge of coping not only with new technologies but with new design methodologies that are fundamen tally necessary and advantageous to support new competitive high-tech products. Laypeople and engineers alike have marveled at the advances made over the years in electronics' complexity, performance, density, and cost. The migration of systems to modules to boards to integrated circuits clearly underscores the radical transition that the physical incarnation of electronics has undergone.