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Computer Organization and Design The Hardware Software Interface...
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更新于2023-03-16
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In Praise of Computer Organization and Design: The Hardware/
Software Interface, ARM® Edition
“Textbook selection is oen a frustrating act of compromise—pedagogy, content
coverage, quality of exposition, level of rigor, cost. Computer Organization and
Design is the rare book that hits all the right notes across the board, without
compromise. It is not only the premier computer organization textbook, it is a
shining example of what all computer science textbooks could and should be.”
—Michael Goldweber, Xavier University
“I have been using Computer Organization and Design for years, from the very rst
edition. is new edition is yet another outstanding improvement on an already
classic text. e evolution from desktop computing to mobile computing to Big
Data brings new coverage of embedded processors such as the ARM, new material
on how soware and hardware interact to increase performance, and cloud
computing. All this without sacricing the fundamentals.”
—Ed Harcourt, St. Lawrence University
“To Millennials: Computer Organization and Design is the computer architecture
book you should keep on your (virtual) bookshelf. e book is both old and new,
because it develops venerable principles—Moore’s Law, abstraction, common case
fast, redundancy, memory hierarchies, parallelism, and pipelining—but illustrates
them with contemporary designs.”
—Mark D. Hill, University of Wisconsin-Madison
“e new edition of Computer Organization and Design keeps pace with advances
in emerging embedded and many-core (GPU) systems, where tablets and
smartphones will/are quickly becoming our new desktops. is text acknowledges
these changes, but continues to provide a rich foundation of the fundamentals
in computer organization and design which will be needed for the designers of
hardware and soware that power this new class of devices and systems.”
—Dave Kaeli, Northeastern University
“Computer Organization and Design provides more than an introduction to
computer architecture. It prepares the reader for the changes necessary to meet
the ever-increasing performance needs of mobile systems and big data processing
at a time that diculties in semiconductor scaling are making all systems
power constrained. In this new era for computing, hardware and soware must
be co-designed and system-level architecture is as critical as component-level
optimizations.”
—Christos Kozyrakis, Stanford University
“Patterson and Hennessy brilliantly address the issues in ever-changing computer
hardware architectures, emphasizing on interactions among hardware and soware
components at various abstraction levels. By interspersing I/O and parallelism concepts
with a variety of mechanisms in hardware and soware throughout the book, the new
edition achieves an excellent holistic presentation of computer architecture for the post-
PC era. is book is an essential guide to hardware and soware professionals facing
energy eciency and parallelization challenges in Tablet PC to Cloud computing.”
—Jae C. Oh, Syracuse University
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ARM® EDITION
Computer Organization and Design
THE HARDWARE/SOFTWARE INTERFACE
David A. Patterson has been teaching computer architecture at the University of
California, Berkeley, since joining the faculty in 1976, 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. is record led to Distinguished Service Awards
from ACM, CRA, and SIGARCH.
At Berkeley, Patterson led the design and implementation of RISC I, likely the rst
VLSI reduced instruction set computer, and the foundation of the commercial
SPARC architecture. He was a leader of the Redundant Arrays of Inexpensive Disks
(RAID) project, which led to dependable storage systems from many companies.
He was also involved in the Network of Workstations (NOW) project, which led to
cluster technology used by Internet companies and later to cloud computing. ese
projects earned four dissertation awards from ACM. His current research projects are
Algorithm-Machine-People and Algorithms and Specializers for Provably Optimal
Implementations with Resilience and Eciency. e AMP Lab is developing scalable
machine learning algorithms, warehouse-scale-computer-friendly programming
models, and crowd-sourcing tools to gain valuable insights quickly from big data in
the cloud. e ASPIRE Lab uses deep hardware and soware co-tuning to achieve the
highest possible performance and energy eciency for mobile and rack computing
systems.
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.
In 1981, he started the MIPS project at Stanford with a handful of graduate students.
Aer completing the project in 1984, he took a leave from the university to cofound MIPS
Computer Systems (now MIPS Technologies), which developed one of the rst commercial
RISC microprocessors. As of 2006, over 2 billion MIPS microprocessors have been
shipped in devices ranging from video games and palmtop computers to laser printers and
network switches. Hennessy subsequently led the DASH (Director Architecture for Shared
Memory) project, which prototyped the rst scalable cache coherent multiprocessor; many
of the key ideas have been adopted in modern multiprocessors. In addition to his technical
activities and university responsibilities, he has continued to work with numerous start-
ups, both as an early-stage advisor and an investor.
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