Computer architecture : fundamentals and principles of computer design / Joseph D. Dumas II.

By:

Dumas, Joseph D

Material type: Text

TextPublication details: Boca Raton, FL : CRC Press, c2006.Description: 372 p. : ill. ; 25 cmISBN:

9780849327490

Subject(s):

DDC classification:

004.22 22

Contents:

Introduction to computer architecture -- Basics of the central processing unit -- Enhancing CPU performance -- Exceptions, interrupts, and input/output systems -- Parallel and high-performance systems -- Special-purpose and future architectures.

Summary: Future computing professionals must become familiar with historical computer architectures because many of the same or similar techniques are still being used and may persist well into the future. Computer Architecture: Fundamentals and Principles of Computer Design discusses the fundamental principles of computer design and performance enhancement that have proven effective and demonstrates how current trends in architecture and implementation rely on these principles while expanding upon them or applying them in new ways. Rather than focusing on a particular type of machine, this textbook explains concepts and techniques via examples drawn from various architectures and implementations. When necessary, the author creates simplified examples that clearly explain architectural and implementation features used across many computing platforms. Following an introduction that discusses the difference between architecture and implementation and how they relate, the next four chapters cover the architecture of traditional, single-processor systems that are still, after 60 years, the most widely used computing machines. The final two chapters explore approaches to adopt when single-processor systems do not reach desired levels of performance or are not suited for intended applications. Topics include parallel systems, major classifications of architectures, and characteristics of unconventional systems of the past, present, and future. This textbook provides students with a thorough grounding in what constitutes high performance and how to measure it, as well as a full familiarity in the fundamentals needed to make systems perform better. This knowledge enables them to understand and evaluate the many new systems they will encounter throughout their professional careers.

Tags from this library: No tags from this library for this title. Log in to add tags.

Average rating: 0.0 (0 votes)

Holdings
Item type	Current library	Call number	Copy number	Status	Date due	Barcode
Books	Main library General Stacks	004.22 / DU.C 2006 (Browse shelf(Opens below))	1	Available		003935

Browsing Main library shelves, Shelving location: General Stacks Close shelf browser (Hides shelf browser)

Previous								Next
Previous	004.21 / MA.E 2006 Embedded system design /	004.22 / CO.C 2002 Computer systems :	004.22 / DE.I 2010 Introduction to 80x86 assembly language and computer architecture /	004.22 / DU.C 2006 Computer architecture :	004.22 / EN.A 2000 The architecture of computer hardware and systems software :	004.22 / GO. C 200- Computer Organization /	004.22 / GO.C 2007 Computer architecture /	Next

Includes bibliographical references (p. 351-362) and index.

Future computing professionals must become familiar with historical computer architectures because many of the same or similar techniques are still being used and may persist well into the future. Computer Architecture: Fundamentals and Principles of Computer Design discusses the fundamental principles of computer design and performance enhancement that have proven effective and demonstrates how current trends in architecture and implementation rely on these principles while expanding upon them or applying them in new ways. Rather than focusing on a particular type of machine, this textbook explains concepts and techniques via examples drawn from various architectures and implementations. When necessary, the author creates simplified examples that clearly explain architectural and implementation features used across many computing platforms. Following an introduction that discusses the difference between architecture and implementation and how they relate, the next four chapters cover the architecture of traditional, single-processor systems that are still, after 60 years, the most widely used computing machines. The final two chapters explore approaches to adopt when single-processor systems do not reach desired levels of performance or are not suited for intended applications. Topics include parallel systems, major classifications of architectures, and characteristics of unconventional systems of the past, present, and future. This textbook provides students with a thorough grounding in what constitutes high performance and how to measure it, as well as a full familiarity in the fundamentals needed to make systems perform better. This knowledge enables them to understand and evaluate the many new systems they will encounter throughout their professional careers.

There are no comments on this title.

to post a comment.