Description

The fifth edition of Computer Organization and Design—winner of a 2014 Textbook Excellence Award (Texty) from The Text and Academic Authors Association—moves forward into the post-PC era with new examples, exercises, and material highlighting the emergence of mobile computing and the cloud. This generational change is emphasized and explored with updated content featuring tablet computers, cloud infrastructure, and the ARM (mobile computing devices) and x86 (cloud computing) architectures.

Because an understanding of modern hardware is essential to achieving good performance and energy efficiency, this edition adds a new concrete example, "Going Faster," used throughout the text to demonstrate extremely effective optimization techniques. Also new to this edition is discussion of the "Eight Great Ideas" of computer architecture.

As with previous editions, a MIPS processor is the core used to present the fundamentals of hardware technologies, assembly language, computer arithmetic, pipelining, memory hierarchies and I/O.

Instructors looking for fourth edition teaching materials should e-mail textbook@elsevier.com.

Key Features

  • Winner of a 2014 Texty Award from the Text and Academic Authors Association
  • Includes new examples, exercises, and material highlighting the emergence of mobile computing and the cloud
  • Covers parallelism in depth with examples and content highlighting parallel hardware and software topics
  • Features the Intel Core i7, ARM Cortex-A8 and NVIDIA Fermi GPU as real-world examples throughout the book
  • Adds a new concrete example, "Going Faster," to demonstrate how understanding hardware can inspire software optimizations that improve performance by 200 times
  • Discusses and highlights the "Eight Great Ideas" of computer architecture:  Performance via Parallelism; Performance via Pipelining; Performance via Prediction; Design for Moore's Law; Hierarchy of Memories; Abstraction to Simplify Design; Make the Common Case Fast;  and Dependability via Redundancy
  • Includes a full set of updated and improved exercises

Readership

Professional digital system designers, programmers, application developers, and system software developers. Undergraduate students in Computer Science, Computer Engineering and Electrical Engineering courses in Computer Organization, Computer Design, ranging from Sophomore required courses to Senior Electives

Table of Contents

1 Computer Abstractions and Technology
1.1 Introduction
1.2 Eight Great Ideas in Computer Architecture
1.3 Below Your Program
1.4 Under the Covers
1.5 Technologies for Building Processors and Memory
1.6 Performance
1.7 The Power Wall
1.8 The Sea Change: The Switch from Uniprocessors to Multiprocessors
1.9 Real Stuff: Benchmarking the Intel Core i7
1.10 Fallacies and Pitfalls
1.11 Concluding Remarks
1.12 Historical Perspective and Further Reading
1.13 Exercises

2 Instructions: Language of the Computer
2.1 Introduction
2.2 Operations of the Computer Hardware
2.3 Operands of the Computer Hardware
2.4 Signed and Unsigned Numbers
2.5 Representing Instructions in theComputer
2.6 Logical Operations
2.7 Instructions for Making Decisions
2.8 Supporting Procedures in Computer Hardware
2.9 Communicating with People
2.10 MIPS Addressing for 32-Bit Immediates and Addresses
2.11 Parallelism and Instructions: Synchronization
2.12 Translating and Starting a Program
2.13 A C Sort Example to Put It All Together
2.14 Arrays versus Pointers
2.15 Advanced Material: Compiling C and Interpreting Java
2.16 Real Stuff: ARM v7 (32-bit) Instructions
2.17 Real Stuff: x86 Instructions
2.18 Real Stuff: ARM v8 (64-bit) Instructions
2.19 Fallacies and Pitfalls
2.20 Concluding Remarks
2.21 Historical Perspective and Further Reading
2.22 Exercises

3 Arithmetic for Computers 
3.1 Introduction
3.2 Addition and Subtraction
3.3 Multiplication
3.4 Division
3.5 Floating Point
3.6 Parallelism and Computer Arithmetic: Subword Parallelism
3.7 Real Stuff: x86 Streaming SIMD Extensions and Advanced Vector Extensions
3.8 Going Faster: Subword Parallelism and Matrix Multiply
3.9 Fallacies and Pitfalls
3.10 Concluding Remarks
3.11 Historical Perspective and Further Reading
3.12 Exercises

4 The Proc

Details

No. of pages:
800
Language:
English
Copyright:
© 2014
Published:
Imprint:
Morgan Kaufmann
Print ISBN:
9780124077263
Electronic ISBN:
9780124078864

About the editors

David Patterson

David A. Patterson has been teaching computer architecture at the University of California, Berkeley, since joining the faculty in 1977, where he holds the Pardee Chair of Computer Science. His teaching has been honored by the Distinguished Teaching Award from the University of California, the Karlstrom Award from ACM, and the Mulligan Education Medal and Undergraduate Teaching Award from IEEE. Patterson received the IEEE Technical Achievement Award and the ACM Eckert-Mauchly Award for contributions to RISC, and he shared the IEEE Johnson Information Storage Award for contributions to RAID. He also shared the IEEE John von Neumann Medal and the C & C Prize with John Hennessy. Like his co-author, Patterson is a Fellow of the American Academy of Arts and Sciences, the Computer History Museum, ACM, and IEEE, and he was elected to the National Academy of Engineering, the National Academy of Sciences, and the Silicon Valley Engineering Hall of Fame. He served on the Information Technology Advisory Committee to the U.S. President, as chair of the CS division in the Berkeley EECS department, as chair of the Computing Research Association, and as President of ACM. This record led to Distinguished Service Awards from ACM, CRA, and SIGARCH.

Affiliations and Expertise

Pardee Professor of Computer Science, University of California, Berkeley, USA

John Hennessy

John L. Hennessy is the tenth president of Stanford University, where he has been a member of the faculty since 1977 in the departments of electrical engineering and computer science. Hennessy is a Fellow of the IEEE and ACM; a member of the National Academy of Engineering, the National Academy of Science, and the American Philosophical Society; and a Fellow of the American Academy of Arts and Sciences. Among his many awards are the 2001 Eckert-Mauchly Award for his contributions to RISC technology, the 2001 Seymour Cray Computer Engineering Award, and the 2000 John von Neumann Award, which he shared with David Patterson. He has also received seven honorary doctorates.

Affiliations and Expertise

President, Stanford University, Palo Alto, CA, USA

Awards

2014 Textbook Excellence Award – 2nd or Later Edition, Text and Academic Authors Association

Reviews

"...the fundamental computer organization book, both as an introduction for readers with no experience in computer architecture topics, and as an up-to-date reference for computer architects."--Computing Reviews, July 22 2014