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Microprocessors --- Microprocesseurs --- Microprocessoren --- Microprocessoren.
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Elektronica --- Microprocessoren --- Schakelingen --- Elektronica. --- Microprocessoren. --- Schakelingen.
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Electronics --- Programming --- microprocessoren --- programmeertalen
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This book outlines a new, essential methodology for developing SoC hardware and software using configurable, extensible processor technology as a unifying theme. In addition to laying out a dramatically new SOC design methodology, the book introduces the concepts of processor configuration, extension, hardware/software co-generation and multiple processor partitioning and communication. It uses real-world examples extensively, both in the form of case studies about architecture decisions and in very short examples that communicate the flavor and the power of these methods. No other book discusses how to use multiple processors on a single chip to speed the chip design process and achieve faster performance. All other books that cover SoC design assume the traditional 1980's-style approach to system design that employs one central processor or, at most, one processor and a co-processor such as a digital signal processor (DSP) on a chip. Other books assume that if there are parts of the design that can't be run fast enough on the main system processor, then the designer must hand-code those parts of the design in hardware-description language (HDL) such as Verilog or VHDL. That was state-of-the-art thinking for chip design in the early 1990s, but as chip complexity increased and configurable, embedded processor cores were introduced and established, SoCs with multiple processors are proving to be an effective alternative.
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This concise guide is designed to enable the reader to learn how to program in assembly language as quickly as possible. Through a hands-on programming approach, readers will also learn about the architecture of the Intel processor, and the relationship between high-level and low-level languages. This updated second edition has been expanded with additional exercises, and enhanced with new material on floating-point numbers and 64-bit processing. Topics and features: Provides guidance on simplified register usage, simplified input/output using C-like statements, and the use of high-level control structures Describes the implementation of control structures, without the use of high-level structures, and often with related C program code Illustrates concepts with one or more complete program Presents review summaries in each chapter, together with a variety of exercises, from short-answer questions to programming assignments Covers selection and iteration structures, logic, shift, arithmetic shift, rotate, and stack instructions, procedures and macros, arrays, and strings Includes an introduction to floating-point instructions and 64-bit processing Examines machine language from a discovery perspective, introducing the principles of computer organization A must-have resource for undergraduate students seeking to learn the fundamentals necessary to begin writing logically correct programs in a minimal amount of time, this work will serve as an ideal textbook for an assembly language course, or as a supplementary text for courses on computer organization and architecture. The presentation assumes prior knowledge of the basics of programming in a high-level language such as C, C++, or Java. Dr. James T. Streib is Professor Emeritus of Computer Science at Illinois College, Jacksonville, IL, USA. His other publications include the Springer textbooks Guide to Data Structures and Guide to Java.
Electronics --- Programming --- microprocessoren --- programmeertalen
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