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Here's an entire learning solution in one book, complete with detailed coverage, questions, problems, and lab experiments! Microprocessor Architecture, Programming, and Systems Featuring the 8085 details the 8085 processor, from both a hardware and software standpoint. Readers will learn pseudo-code and flowcharting as tools in programming a microprocessor, with current, focused coverage that is perfectly written for the two-year college student. Comprehensive exposure to microprocessor architecture includes an entire chapter devoted to both the hardware and software of the 8051 Microcontroller not found in other books. Coverage also includes a uniquely thorough comparison of the 8085 microprocessor with other Motorola and Intel microprocessors.
This book describes the architecture of microprocessors from simple in-order short pipeline designs to out-of-order superscalars.
Om hvordan mikroprocessorer fungerer, med undersøgelse af de nyeste mikroprocessorer fra Intel, IBM og Motorola.
"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.
Microprocessor Architectures and Systems: RISC, CISC, and DSP focuses on the developments of Motorola's CISC, RISC, and DSP processors and the advancements of the design, functions, and architecture of microprocessors. The publication first ponders on complex instruction set computers and 32-bit CISC processors. Discussions focus on MC68881 and MC68882 floating point coprocessors, debugging support, MC68020 32-bit performance standard, bus interfaces, MC68010 SUPERVISOR resource, and high-level language support. The manuscript then covers the RISC challenge, digital signal processing, and memory management and caches. Topics include implementing memory systems, multitasking and user/supervisor conflicts, partitioning the system, cache size and organization, DSP56000 family, MC88100 programming model, M88000 family, and the 80/20 rule. The text examines the selection of a microprocessor architecture, changing design cycle, semiconductor technology, multiprocessing, and real-time software, interrupts, and exceptions. Concerns include locating associated tasks, MC88100 interrupt service routines, single- and multiple-threaded operating systems, and the MC68300 family. The publication is a valuable reference for computer engineers and researchers interested in microprocessor architectures and systems.
The author has taught the design and use of microprocessor systems to undergraduate and technician level students for over 25 years. - A core text for academic modules on microprocessors, embedded systems and computer architecture - A practical design-orientated approach
This book presents the use of a microprocessor-based digital system in our daily life. Its bottom-up approach ensures that all the basic building blocks are covered before the development of a real-life system. The ultimate goal of the book is to equip students with all the fundamental building blocks as well as their integration, allowing them to implement the applications they have dreamed up with minimum effort.
The Rabbit 3000 is a popular high-performance microprocessor specifically designed for embedded control, communications, and Ethernet connectivity. This new technical reference book will help designers get the most out of the Rabbit's powerful feature set. The first book on the market to focus exclusively on the Rabbit 3000, it provides detailed coverage of: Rabbit architecture and development environment, interfacing to the external world, networking, Rabbit assembly language, multitasking, debugging, Dynamic C and much more! Authors Kamal Hyder and Bob Perrin are embedded engineers with years of experience and they offer a wealth of design details and "insider" tips and techniques. Extensive embedded design examples are supported by fully tested source code. Whether you're already working with the Rabbit or considering it for a future design, this is one reference you can't be without! Let the experts teach you how to design embedded systems that efficiently hook up to the Internet using networked core modules Provides a number of projects and source code using RabbitCore, which will make it easy for the system designer and programmer to get hands-on experience developing networked devices
Written by the world’s most prominent microprocessor design leaders from industry and academia, this book provides complete coverage of all aspects of complex microprocessor design: technology, power management, clocking, high-performance architecture, design methodologies, memory and I/O design, computer aided design, testing and design for testability. The chapters provide state-of-the-art knowledge while including sufficient tutorial material to bring non-experts up to speed. A useful companion to design engineers working in related areas.