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The authors present readers with a compelling, one-stop, advanced system perspective on the intrinsic issues of digital system design. This invaluable reference prepares readers to meet the emerging challenges of the device and circuit issues associated with deep submicron technology. It incorporates future trends with practical, contemporary methodologies.
This volume starts with a description of the metrics and benchmarks used to design energy-efficient microprocessor systems, followed by energy-efficient methodologies for the architecture and circuit design, DC-DC conversion, energy-efficient software and system integration.
If you have the right tools, designing a microprocessor shouldnt be complicated. The Verilog hardware description language (HDL) is one such tool. It can enable you to depict, simulate, and synthesise an electronic design, and thus increase your productivity by reducing the overall workload associated with a given project. Monte Dalrymples Microprocessor Design Using Verilog HDL is a practical guide to processor design in the real world. It presents the Verilog HDL in an easily digestible fashion and serves as a thorough introduction about reducing a computer architecture and instruction set to practice. Youre led through the microprocessor design process from start to finish, and essential topics ranging from writing in Verilog to debugging and testing are laid bare. The book details the following, and more: Verilog HDL Review: data types, bit widths/labelling, operations, statements, and design hierarchy; Verilog Coding Style: files vs. modules, indentation, and design organisation; Design Work: instruction set architecture, external bus interface, and machine cycle; Microarchitecture: design spreadsheet and essential worksheets (eg: Operation, Instruction Code, and Next State); Writing in Verilog: choosing encoding, assigning states in a state machine, and files (eg: defines.v, hierarchy.v, machine.v); Debugging, Verification, and Testing: debugging requirements, verification requirements, testing requirements, and the test bench; Post Simulation: enhancements and reduction to practice.
Microprocessor System Design: A Practical Introduction describes the concepts and techniques incorporated into the design of electronic circuits, particularly microprocessor boards and their peripherals. The book reviews the basic building blocks of the electronic systems composed of digital (logic levels, gate output circuitry) and analog components (resistors, capacitors, diodes, transistors). The text also describes operational amplifiers (op-amp) that use a negative feedback technique to improve the parameters of the op-amp. The design engineer can use programmable array logic (PAL) to replace standard discrete TTL and CMOS gates in circuits. The PAL is programmable and configurable to match the requirement of a given circuit. Using PAL can save space, a very important factor in the miniaturization process. Examples of PAL applications include the BCD counter, the LS 138 emulator, and a priority interrupt encoder. The book also explains the operation and function of a microprocessor, the bus-based systems, analog-to-digital conversion, and vice-versa. The text is suitable for programmers, computer engineers, computer technicians, and computer instructors dealing with many aspects of computers such as programming, networking, engineering or design.
Computer Systems Organization -- Computer System Implementation.
Design of System on a Chip is the first of two volumes addressing the design challenges associated with new generations of the semiconductor technology. The various chapters are the compilations of tutorials presented at workshops in Brazil in the recent years by prominent authors from all over the world. In particular the first book deals with components and circuits. Device models have to satisfy the conditions to be computationally economical in addition to be accurate and to scale over various generations of technology. In addition the book addresses issues of the parasitic behavior of deep sub-micron components, such as parameter variations and sub-threshold effects. Furthermore various authors deal with items like mixed signal components and memories. We wind up with an exposition of the technology problems to be solved if our community wants to maintain the pace of the "International Technology Roadmap for Semiconductors" (ITRS).
Presents information in a user-friendly, easy-access way so that the book can act as either a quick reference for more experienced engineers or as an introductory guide for new engineers and college graduates.
Conceptual and precise, Modern Processor Design brings together numerous microarchitectural techniques in a clear, understandable framework that is easily accessible to both graduate and undergraduate students. Complex practices are distilled into foundational principles to reveal the authors insights and hands-on experience in the effective design of contemporary high-performance micro-processors for mobile, desktop, and server markets. Key theoretical and foundational principles are presented in a systematic way to ensure comprehension of important implementation issues. The text presents fundamental concepts and foundational techniques such as processor design, pipelined processors, memory and I/O systems, and especially superscalar organization and implementations. Two case studies and an extensive survey of actual commercial superscalar processors reveal real-world developments in processor design and performance. A thorough overview of advanced instruction flow techniques, including developments in advanced branch predictors, is incorporated. Each chapter concludes with homework problems that will institute the groundwork for emerging techniques in the field and an introduction to multiprocessor systems.
"This book … uniquely synthesizes Professor Milutinovi???’s thinking on the important issues in computer architecture … The result is a necessarily somewhat eclectic, personal statement by one of the leaders of the field." —Michael J. Flynn, Stanford University From the Foreword "How do we invest one billion transistors on a single chip?" asks Veljko Milutinovi??? as he ponders the ultimate goal of an entire distributed shared memory (DSM)—plus numerous specialized accelerators—on a single chip. He then goes on to present a lively personal account, complete with survival tips, of his experiences in the front line of the rapidly evolving arena of microprocessor and multimicroprocessor system design. Focusing on areas critical to the future of system-on-a-chip design, Milutinovi??? combines his unique perspective with authoritative discussions of cache, instruction level parallelism, prediction strategies, the I/O bottleneck, multithreading, and multiprocessors. He reinforces concepts using three case studies of his own computer system/accelerator implementations with additional details available through Web-based appendices. A key DSM concept, Reflective Memory System (RMS), and tools for evaluating new architectural ideas or characterizing applications are also covered in appendices. Designed for fast, easy comprehension, Surviving the Design of Microprocessor and Multimicroprocessor Systems integrates clear, up-to-date explanations with a wealth of figures and a thorough review of the technical literature. It brings readers up to speed with concepts essential for implementing their own ideas, while addressing the most important issues facing scientists and engineers in advanced computer design.