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This Fourth Revised Edition of Computer Organization and Design includes a complete set of updated and new exercises, along with improvements and changes suggested by instructors and students. Focusing on the revolutionary change taking place in industry today--the switch from uniprocessor to multicore microprocessors--this classic textbook has a modern and up-to-date focus on parallelism in all its forms. Examples highlighting multicore and GPU processor designs are supported with performance and benchmarking data. 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. Sections on the ARM and x86 architectures are also included.

The companion CD provides a toolkit of simulators and compilers along with tutorials for using them, as well as advanced content for further study and a search utility for finding content on the CD and in the printed text. For the convenience of readers who have purchased an ebook edition or who may have misplaced the CD-ROM, all CD content is available as a download at bit.ly/nFXcLq
This Revised Fourth Edition of Computer Organization and Design has been updated with new exercises and improvements throughout suggested by instructors teaching from the book
Covers the revolutionary change from sequential to parallel computing, with a chapter on parallelism and sections in every chapter highlighting parallel hardware and software topics
Includes an appendix by the Chief Scientist and the Director of Architecture of NVIDIA covering the emergence and importance of the modern GPU, describing in detail for the first time the highly parallel, highly multithreaded multiprocessor optimized for visual computing

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David A. Patterson was the first in his family to graduate from college (1969 A.B UCLA), and he enjoyed it so much that he didn't stop until a PhD, (1976 UCLA). After 4 years developing a wafer-scale computer at Hughes Aircraft, he joined U.C. Berkeley in 1977.

He spent 1979 at DEC working on the VAX minicomputer. He and colleagues later developed the Reduced Instruction Set Computer (RISC). By joining forces with IBM's 801 and Stanford's MIPS projects, RISC became widespread. In 1984 Sun Microsystems recruited him to start the SPARC architecture. In 1987, Patterson and colleagues wondered if tried building dependable storage systems from the new PC disks. This led to the popular Redundant Array of Inexpensive Disks (RAID). He spent 1989 working on the CM-5 supercomputer. Patterson and colleagues later tried building a supercomputer using standard desktop computers and switches. The resulting Network of Workstations (NOW) project led to cluster technology used by many startups. He is now working on the Recovery Oriented Computing (ROC) project.

In the past, he served as Chair of Berkeley's CS Division, Chair and CRA. He is currently serving on the IT advisory committee to the U.S. President and has just been elected President of the ACM.

All this resulted in 150 papers, 5 books, and the following honors, some shared with friends: election to the National Academy of Engineering; from the University of California: Outstanding Alumnus Award (UCLA Computer Science Department), McEntyre Award for Excellence in Teaching (Berkeley Computer Science), Distinguished Teaching Award (Berkeley); from ACM: fellow, SIGMOD Test of Time Award, Karlstrom Outstanding Educator Award; from IEEE: fellow, Johnson Information Storage Award, Undergraduate Teaching Award, Mulligan Education Medal, and von Neumann Medal.

John L. Hennessy is the 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 the ACM, a member of the National Academy of Engineering, the National Academy of Science, the American Academy of Arts and Sciences, and the Spanish Royal Academy of Engineering. He received the 2001 Eckert-Mauchly Award for his contributions to RISC technology, the 2001 Seymour Cray Computer Engineering Award, and shared the John von Neumann award in 2000 with David Patterson.

After completing the project in 1984, he took a one-year leave from the university to co-found MIPS Computer Systems, which developed one of the first commercial RISC microprocessors. After being acquired by Silicon Graphics in 1991, MIPS Technologies became an independent company in 1998, focusing on microprocessors for the embedded marketplace. As of 2004, over 300 million MIPS microprocessors have been shipped in devices ranging from video games and palmtop computers to laser printers and network switches.

Hennessy's more recent research at Stanford focuses on the area of designing and exploiting multiprocessors. He helped lead the design of the DASH multiprocessor architecture, the first distributed shared-memory multiprocessors supporting cache coherency, and the basis for several commercial multiprocessor designs, including the Silicon Graphics Origin multiprocessors. Since becoming president of Stanford, revising and updating this text and the more advanced Computer Architecture: A Quantitative Approach has become a primary form of recreation and relaxation.

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A great book for many audiences 2008/12/9

By John Mashey - (Amazon.com)

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Iown all 4 editions of this book, plus the 4 published editions (and one preliminary edition) of the related "Computer Architecture - A Quantitative Approach".

Why?

Because, every time one of these comes out, they become clear standards. The last 20 years have been a period of rapid changes in computing. Fortunately Patterson and Hennessy somehow find time to update their books about every 5 years, not only adding new material, but also improving the pedagogy and readability for different audiences.

This book offers a thoughtful combination of printed and electronic information that potential authors should study, as this combination has evolved across the various iterations.

I especially appreciate the reader's guide (page xvii), which highlights different paths through the book for different audiences. This is very important in books that cover material comprehensively, as not everyone needs to read everything, especially the first time through.

This edition is well worth having, even if one already has the earlier ones. The additional material on multiprocessors is especially crucial, given that uniprocessor performance growth has slowed, and multiprocessor software remains challenging.

I spent many years trying to get people to write software at the highest level possible, but the otherwise-desirable trend in that direction can have one unfortunate side-effect. Some younger software designers have little or no experience with computer architecture and hardware/software interface, and it is all too easy to create performance and scalability surprises that could easily be avoided.

I'd strongly recommend this book to avoid such surprises. Even if a programmer writes in very high level languages, some knowledge of the lower levels and their pitfalls goes a long way.

I used to recommend the other book to people like technology journalists, venture capitalists, and financial analysts, i.e., people who are rarely computer professionals, but need to understand computer technology and its trends. Many such have been surprised to find the book was useful to them.

However, as Patterson and Hennessy have reworked the balance of material between the two books, the more introductory material is located here, whereas the other book is more appropriate for computer designers or software people working close to the hardware.

Hence, the next time someone needs to understand computer technology, well-explained by experts, this is the book I'd recommend.

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The chapter contents were decent, but the problems are horrible 2010/8/29

By D. George - (Amazon.com)

First I will mention that I had no problem with the actual content presented in the chapters. This was a textbook for my Computer Architecture class, and the figures and presentation were fine. I really like the "pitfalls & fallacies" section of each chapter, as well as the brief sections looking at how real processors apply ideas and looking at the histories of the processors. (Go ARM!)

Now, as I mentioned this was a textbook for my class, and we were often assigned problems at the end of each chapter to do as homework. These problems are the sole reason I give this book a two star. There are so many problems that are very ambiguous as to what they are asking for. Also, I don't mind having multiple parts to a problem, but they went overboard with it. You have one problem with an A and B part, then the next with A-F that you need to perform for both A and B parts of the problem before. It would be MUCH more straightforward just to make all of these sections their own individual program and it would clear up a lot of the confusion that my whole class experienced.

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The best book I have used in computer engineering at UCLA 2010/10/22

By Rectified^ - (Amazon.com)

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I'm a fourth year UCLA student studying computer engineering, and by far this has been my favorite text. It appeals both to the programmer and circuits guy in me, as well as the DIYer hardware enthusiast. It covers much of the essential computer architecture theory, but also is well supplemented with real world examples. It emphasizes design tradeoffs that real computer architects must solve. The only thing I don't like about it is the omission of some content from the hard text, but those items are provided via CD.

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