Computer Organization and Architecture: Designing for Performance, 8/E
ISBN-10: 0136073735
ISBN-13: 9780136073734
Publisher: Prentice Hall
Author: Williams Stallings
Copyright: 2010
Published: 04/03/2009
Description
For undergraduates and professionals in computer science, computer engineering, and electrical engineering courses. Four-time winner of Text and Academic Author's award for best Computer Science and Engineering text!
Table of Contents
Chapter 0 Reader's Guide
Chapter 1 Introduction
Chapter 3 A Top-Level View of Computer Function and Interconnection
Chapter 4 Cache Memory
Chapter 5 Internal Memory Technology
Chapter 6 External Memory
Chapter 7 Input/Output
Chapter 8 Operating System Support
Chapter 9 Computer Arithmetic
Chapter 10 Instruction Sets: Characteristics and Functions
Chapter 11 Instruction Sets: Addressing Modes and Formats
Chapter 12 Processor Structure and Function
Chapter 13 Reduced Instruction Set Computers (RISCs)
Chapter 14 Instruction-Level Parallelism and Superscalar Processors
Chapter 15 Control Unit Operation
Chapter 17 Parallel Processing1
Chapter 18 Multicore Computers
Chapter 19 Number Systems
Chapter 20 Digital Logic
Chapter 21 The IA-64 Architecture
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Labels: Computer Organization and Architecture, computer science, Williams Stallings
Engineering Digital Design by RF Tinder
Academic Press, 2000
Computers
884 pages
Engineering Digital Design, Second Edition provides the most extensive coverage of any available textbook in digital logic and design. The new REVISED Second Edition published in September of 2002 provides 5 productivity tools free on the accompanying CD ROM. This software is also included on the Instructor's Manual CD ROM and complete instructions accompany each software program.
In the REVISED Second Edition modern notation combines with state-of-the-art treatment of the most important subjects in digital design to provide the student with the background needed to enter industry or graduate study at a competitive level. Combinatorial logic design and synchronous and asynchronous sequential machine design methods are given equal weight, and new ideas and design approaches are explored.
The productivity tools provided on the accompanying CD are outlined below:
[1] EXL-Sim2002 logic simulator: EXL-Sim2002 is a full-featured, interactive, schematic-capture and simulation program that is ideally suited for use with the text at either the entry or advanced-level of logic design. Its many features include drag-and-drop capability, rubber banding, mixed logic and positive logic simulations, macro generation, individual and global (or randomized) delay assignments, connection features that eliminate the need for wire connections, schematic page sizing and zooming, waveform zooming and scrolling, a variety of printout capabilities, and a host of other useful features.
[2] BOOZER logic minimizer: BOOZER is a software minimization tool that is recommended for use with the text. It accepts entered variable (EV) or canonical (1's and 0's) data from K-maps or truth tables, with or without don't cares, and returns an optimal or near optimal single or multi-output solution. It can handle up to 12 functions Boolean functions and as many inputs when used on modern computers.
[3] ESPRESSO II logic minimizer: ESPRESSO II is another software minimization tool widely used in schools and industry. It supports advanced heuristic algorithms for minimization of two-level, multi-output Boolean functions but does not accept entered variables. It is also readily available from the University of California, Berkeley, 1986 VLSI Tools Distribution.
[4] ADAM design software: ADAM (for Automated Design of Asynchronous Machines) is a very powerful productivity tool that permits the automated design of very complex asynchronous state machines, all free of timing defects. The input files are state tables for the desired state machines. The output files are given in the Berkeley format appropriate for directly programming PLAs. ADAM also allows the designer to design synchronous state machines, timing-defect-free. The options include the lumped path delay (LPD) model or NESTED CELL model for asynchronous FSM designs, and the use of D FLIP-FLOPs for synchronous FSM designs. The background for the use of ADAM is covered in Chapters 11, 14 and 16 of the REVISED 2nd Edition.
[5] A-OPS design software: A-OPS (for Asynchronous One-hot Programmable Sequencers) is another very powerful productivity tool that permits the design of asynchronous and synchronous state machines by using a programmable sequencer kernel. This software generates a PLA or PAL output file (in Berkeley format) or the VHDL code for the automated timing-defect-free designs of the following: (a) Any 1-Hot programmable sequencer up to 10 states. (b) The 1-Hot design of multiple asynchronous or synchronous state machines driven by either PLDs or RAM. The input file is that of a state table for the desired state machine. This software can be used to design systems with the capability of instantly switching between several radically different controllers on a
time-shared basis. The background for the use of A-OPS is covered in Chapters 13, 14 and 16 of the REVISED 2nd Edition.
The above software, as bundled with the REVISED 2nd Edition, will be unique and highly useful to students and faculty alike for both instructional and research purposes. All of the above software, except the EXL-Sim2002 simulator, require the use of a text editor. A "Slideshow" and a "Software Overview" are also included on the CD ROM to provide additional information regarding these productivity tools and the many other new and unique features found in
Engineering Digital Design REVISED Second Edition).
Other new features found in the REVISED Second Edition include numerous new end-of-chapter problems that have been added to enrich the student's learning experience by making use of the software tools listed above.
After inspecting the REVISED Second Edition and using the software bundled with it readers will find a fresh new approach to logic design and analysis has been introduced. The text is designed to be used at the entry, intermediate or advanced levels thereby making it unnecessary for students to change texts between successive courses in the subject area.
* CD-ROM bundled with text includes 5 powerful productivity tools free
* The most complete coverage of any text in digital logic and design
* Appropriate for introductory and intermediate courses in digital logic and design
* Over 670 figures and tables help to replace lengthy explanations
* More than 1000 worked and unworked exercises and problems aid the learning process
* Unique coverage of ALUs
* Extensive coverage of number systems, binary arithmetic and codes
* Exceptionally strong in synchronous and asynchronous machine design
* Extensive glossary presented at the beginning of the text
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Sams Teach Yourself Visual C++ 6 in 21 Days - ebook
For the majority of C++ programmers, the pace and style of David Chapman’s Teach Yourself Visual C++ 6 in 21 Days will make a good deal of sense. The author covers all the essentials of basic Windows and Microsoft Foundation Classes (MFC) development, and then addresses several new features in Visual C++ 6, all while moving quickly enough for the busy, working programmer.
Chapman’s first section introduces the basic Visual C++ 6 tools, like the AppWizard and ClassWizard, and discusses the essentials of building dialog-based applications using basic Windows controls such as static text, edit, button, and list box controls. Further chapters cover mouse and keyboard basics, timers, menus, and fonts. In short, the first week provides a traditional introduction to Windows and MFC programming without the frills.
The second set of tutorials delves into Graphical Device Interface (GDI) graphics programming, always a challenging topic for new MFC programmers. Then the author moves to using ActiveX controls inside your applications (a real strength of Visual C++, enhanced in the new release). The basics of toolbars, saving and restoring files to MFC applications, and an introduction to Open Database Connectivity (ODBC) programming round out this set of chapters.
The last set of exercises will give the MFC developer some new expertise. First, the author looks at the potential of ActiveX Data Objects (ADOs) for database development and how to build reusable libraries in both static and dynamic targets. Advanced material introduces the basics of networking and the TCP/IP protocol and discusses MFC support for working with the Web.
For readers with a little more time, handy appendices discuss additional topics such as printing, the MFC container and helper classes, and the basics of exception handling and debugging. Clearly, the constraints of the 21-day format have not prevented this author from successfully covering many essential topics in today’s MFC programming with a good level of detail.
Learn Visual C++ through the Teach Yourself series, with sections on: Q&A, Do’s and Don’ts, Workshop, Shaded syntax boxes, Type/Output/Analysis icons. Week One starts you with Visual C++. After installing and maneuvering through the components of the software, you’ll examine a preliminary program to get the feel for C++ and Visual C++. You’ll learn: C++ basics; hierarchies; members, functions, and objects; inheritance; MFC; installing Visual C++, the Visual C++ compiler. In Week Two, you’ll look at components of Windows applications and how they are invoked with Visual C++. Topics include: keyboard input; mouse usage; data file handling; lists and serialization; toolbars and status bars; graphics; and projects. Week Three examines the more involved aspects of Visual C++ and Windows applications.
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Chapman’s first section introduces the basic Visual C++ 6 tools, like the AppWizard and ClassWizard, and discusses the essentials of building dialog-based applications using basic Windows controls such as static text, edit, button, and list box controls. Further chapters cover mouse and keyboard basics, timers, menus, and fonts. In short, the first week provides a traditional introduction to Windows and MFC programming without the frills.
The second set of tutorials delves into Graphical Device Interface (GDI) graphics programming, always a challenging topic for new MFC programmers. Then the author moves to using ActiveX controls inside your applications (a real strength of Visual C++, enhanced in the new release). The basics of toolbars, saving and restoring files to MFC applications, and an introduction to Open Database Connectivity (ODBC) programming round out this set of chapters.
The last set of exercises will give the MFC developer some new expertise. First, the author looks at the potential of ActiveX Data Objects (ADOs) for database development and how to build reusable libraries in both static and dynamic targets. Advanced material introduces the basics of networking and the TCP/IP protocol and discusses MFC support for working with the Web.
For readers with a little more time, handy appendices discuss additional topics such as printing, the MFC container and helper classes, and the basics of exception handling and debugging. Clearly, the constraints of the 21-day format have not prevented this author from successfully covering many essential topics in today’s MFC programming with a good level of detail.
Learn Visual C++ through the Teach Yourself series, with sections on: Q&A, Do’s and Don’ts, Workshop, Shaded syntax boxes, Type/Output/Analysis icons. Week One starts you with Visual C++. After installing and maneuvering through the components of the software, you’ll examine a preliminary program to get the feel for C++ and Visual C++. You’ll learn: C++ basics; hierarchies; members, functions, and objects; inheritance; MFC; installing Visual C++, the Visual C++ compiler. In Week Two, you’ll look at components of Windows applications and how they are invoked with Visual C++. Topics include: keyboard input; mouse usage; data file handling; lists and serialization; toolbars and status bars; graphics; and projects. Week Three examines the more involved aspects of Visual C++ and Windows applications.
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Advanced Engineering Mathematics (9th Edition, 2006) - Kreyszig
Author: Erwin Kreyszig
Publisher: Wiley International
Year: 2006
Format: PDF
Size: 134 MB
Table Of Contents
PART A: ORDINARY DIFFERENTIAL EQUATIONS (ODE'S).
Chapter 1. First-Order ODE's.
Chapter 2. Second Order Linear ODE's.
Chapter 3. Higher Order Linear ODE's.
Chapter 4. Systems of ODE's Phase Plane, Qualitative Methods.
Chapter 5. Series Solutions of ODE's Special Functions.
Chapter 6. Laplace Transforms.
PART B: LINEAR ALGEBRA, VECTOR CALCULUS.
Chapter 7. Linear Algebra: Matrices, Vectors, Determinants: Linear Systems.
Chapter 8. Linear Algebra: Matrix Eigenvalue Problems.
Chapter 9. Vector Differential Calculus: Grad, Div, Curl.
Chapter 10. Vector Integral Calculus: Integral Theorems.
PART C: FOURIER ANALYSIS, PARTIAL DIFFERENTIAL EQUATIONS.
Chapter 11. Fourier Series, Integrals, and Transforms.
Chapter 12. Partial Differential Equations (PDE's).
Chapter 13. Complex Numbers and Functions.
Chapter 14. Complex Integration.
Chapter 15. Power Series, Taylor Series.
Chapter 16. Laurent Series: Residue Integration.
Chapter 17. Conformal Mapping.
Chapter 18. Complex Analysis and Potential Theory.
PART E: NUMERICAL ANALYSIS SOFTWARE.
Chapter 19. Numerics in General.
Chapter 20. Numerical Linear Algebra.
Chapter 21. Numerics for ODE's and PDE's.
PART F: OPTIMIZATION, GRAPHS.
Chapter 22. Unconstrained Optimization: Linear Programming.
Chapter 23. Graphs, Combinatorial Optimization.
PART G: PROBABILITY; STATISTICS.
Chapter 24. Data Analysis: Probability Theory.
Chapter 25. Mathematical Statistics.
Appendix 1: References.
Appendix 2: Answers to Odd-Numbered Problems.
Appendix 3: Auxiliary Material.
Appendix 4: Additional Proofs.
Appendix 5: Tables.
Index.
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Download Solution HERE
Publisher: Wiley International
Year: 2006
Format: PDF
Size: 134 MB
Table Of Contents
PART A: ORDINARY DIFFERENTIAL EQUATIONS (ODE'S).
Chapter 1. First-Order ODE's.
Chapter 2. Second Order Linear ODE's.
Chapter 3. Higher Order Linear ODE's.
Chapter 4. Systems of ODE's Phase Plane, Qualitative Methods.
Chapter 5. Series Solutions of ODE's Special Functions.
Chapter 6. Laplace Transforms.
PART B: LINEAR ALGEBRA, VECTOR CALCULUS.
Chapter 7. Linear Algebra: Matrices, Vectors, Determinants: Linear Systems.
Chapter 8. Linear Algebra: Matrix Eigenvalue Problems.
Chapter 9. Vector Differential Calculus: Grad, Div, Curl.
Chapter 10. Vector Integral Calculus: Integral Theorems.
PART C: FOURIER ANALYSIS, PARTIAL DIFFERENTIAL EQUATIONS.
Chapter 11. Fourier Series, Integrals, and Transforms.
Chapter 12. Partial Differential Equations (PDE's).
Chapter 13. Complex Numbers and Functions.
Chapter 14. Complex Integration.
Chapter 15. Power Series, Taylor Series.
Chapter 16. Laurent Series: Residue Integration.
Chapter 17. Conformal Mapping.
Chapter 18. Complex Analysis and Potential Theory.
PART E: NUMERICAL ANALYSIS SOFTWARE.
Chapter 19. Numerics in General.
Chapter 20. Numerical Linear Algebra.
Chapter 21. Numerics for ODE's and PDE's.
PART F: OPTIMIZATION, GRAPHS.
Chapter 22. Unconstrained Optimization: Linear Programming.
Chapter 23. Graphs, Combinatorial Optimization.
PART G: PROBABILITY; STATISTICS.
Chapter 24. Data Analysis: Probability Theory.
Chapter 25. Mathematical Statistics.
Appendix 1: References.
Appendix 2: Answers to Odd-Numbered Problems.
Appendix 3: Auxiliary Material.
Appendix 4: Additional Proofs.
Appendix 5: Tables.
Index.
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Computer Networks, Fourth Edition - Andrew S. Tanenbaum
Description:
Computer Networks, Fourth Edition is the ideal introduction to computer networks. Renowned author, educator, and researcher Andrew S. Tanenbaum has updated his classic best seller to reflect the newest technologies, including 802.11, broadband wireless, ADSL, Bluetooth, gigabit Ethernet, the Web, the wireless Web, streaming audio, IPsec, AES, quantum cryptography, and more. Using real-world examples, Tanenbaum explains how networks work on the inside, from underlying physical layer hardware up through today's most popular network applications.
Table Of Contents:
CHAPTER 1 INTRODUCTION
1.1 NETWORK APPLICATIONS
1.2 NETWORK HARDWARE
1.3 NETWORK SOFTWARE
1.4 REFERENCE MODELS
1.5 EXAMPLE NETWORKS
1.6 NETWORK STANDARDIZATION
1.7 METRIC UNITS
1.8 OUTLINE OF THE REST OF THE BOOK
CHAPTER 2 THE PHYSICAL LAYER
2.1 THE THEORETICAL BASIS FOR DATA COMMUNICATION
2.2 GUIDED TRANSMISSION MEDIA
2.3 WIRELESS TRANSMISSION
2.4 COMMUNICATION SATELLITES
2.5 THE PUBLIC SWITCHED TELEPHONE NETWORK
2.6 THE MOBILE TELEPHONE SYSTEM
2.7 CABLE TELEVISION
2.8 SUMMARY
CHAPTER 3 THE DATA LINK LAYER
3.1 DATA LINK LAYER DESIGN ISSUES
3.2 ERROR DETECTION AND CORRECTION
3.3 ELEMENTARY DATA LINK PROTOCOLS
3.4 SLIDING WINDOW PROTOCOLS
3.5 PROTOCOL VERIFICATION
3.6 EXAMPLE DATA LINK PROTOCOLS
3.7 SUMMARY
CHAPTER 4 THE MEDIUM ACCESS SUBLAYER
4.1 THE CHANNEL ALLOCATION PROBLEM
4.2 MULTIPLE ACCESS PROTOCOLS
4.3 ETHERNET
4.4 WIRELESS LANS
4.5 BROADBAND WIRELESS
4.6 BLUETOOTH
4.7 DATA LINK LAYER SWITCHING
4.8 SUMMARY
CHAPTER 5 THE NETWORK LAYER
5.1 NETWORK LAYER DESIGN ISSUES
5.2 ROUTING ALGORITHMS
5.3 CONGESTION CONTROL ALGORITHMS
5.4 QUALITY OF SERVICE
5.5 INTERNETWORKING
5.6 THE NETWORK LAYER IN THE INTERNET
5.7 SUMMARY
CHAPTER 6 THE TRANSPORT LAYER
6.1 THE TRANSPORT SERVICE
6.2 ELEMENTS OF TRANSPORT PROTOCOLS
6.3 A SIMPLE TRANSPORT PROTOCOL
6.4 THE INTERNET TRANSPORT PROTOCOLS: UDP
6.5 THE INTERNET TRANSPORT PROTOCOLS: TCP
6.6 PERFORMANCE ISSUES
6.7 SUMMARY
CHAPTER 7 THE APPLICATION LAYER
7.1 DNS--DOMAIN NAME SYSTEM
7.2 ELECTRONIC MAIL
7.3 THE WORLD WIDE WEB
7.4 MULTIMEDIA
7.5 SUMMARY
CHAPTER 8 NETWORK SECURITY
8.1 CRYPTOGRAPHY
8.2 SYMMETRIC-KEY ALGORITHMS
8.3 PUBLIC-KEY ALGORITHMS
8.4 DIGITAL SIGNATURES
8.5 MANAGEMENT OF PUBLIC KEYS
8.6 COMMUNICATION SECURITY
8.7 AUTHENTICATION PROTOCOLS
8.8 E-MAIL SECURITY
8.9 WEB SECURITY
8.10 SOCIAL ISSUES
8.11 SUMMARY
CHAPTER 9 READING LIST AND BIBLIOGRAPHY
9.1 SUGGESTIONS FOR FURTHER READING
9.2 ALPHABETICAL BIBLIOGRAPHY
INDEX
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Modern Operating Systems - Andrew S. Tanenbaum [3rd Edition]
Publisher Prentice Hall
Year 2007
ISBN: 0136006639
Pages: 1104 pages
Format: PDF
Size: 180 MB
Description:
The widely anticipated revision of this worldwide best-seller incorporates the latest developments in operating systems technologies. The Third Edition includes up-to-date materials on relevant operating systems such as Linux, Windows, and embedded real-time and multimedia systems. Includes new and updated coverage of multimedia operating systems, multiprocessors, virtual machines, and antivirus software. Covers internal workings of Windows Vista (Ch. 11); unique even for current publications. Provides information on current research based Tanenbaum’s experiences as an operating systems researcher. A useful reference for programmers.
Table of Contents
1 INTRODUCTION1.1
2 PROCESSES AND THREADS
3 MEMORY MANAGEMENT
4 FILE SYSTEMS
5 INPUT/OUTPUT
6 DEADLOCKS
7 MULTIMEDIA OPERATING SYSTEMS
8 MULTIPLE PROCESSOR SYSTEMS
9 SECURITY
10 CASE STUDY 1: LINUX
11 CASE STUDY 2: WINDOWS VISTA
12 CASE STUDY 3: SYMBIAN OS
13 OPERATING SYSTEMS DESIGN
14 READING LIST AND BIBLIOGRAPHY
INDEX
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DOWNLOAD Solution HERE
Year 2007
ISBN: 0136006639
Pages: 1104 pages
Format: PDF
Size: 180 MB
Description:
The widely anticipated revision of this worldwide best-seller incorporates the latest developments in operating systems technologies. The Third Edition includes up-to-date materials on relevant operating systems such as Linux, Windows, and embedded real-time and multimedia systems. Includes new and updated coverage of multimedia operating systems, multiprocessors, virtual machines, and antivirus software. Covers internal workings of Windows Vista (Ch. 11); unique even for current publications. Provides information on current research based Tanenbaum’s experiences as an operating systems researcher. A useful reference for programmers.
Table of Contents
1 INTRODUCTION1.1
2 PROCESSES AND THREADS
3 MEMORY MANAGEMENT
4 FILE SYSTEMS
5 INPUT/OUTPUT
6 DEADLOCKS
7 MULTIMEDIA OPERATING SYSTEMS
8 MULTIPLE PROCESSOR SYSTEMS
9 SECURITY
10 CASE STUDY 1: LINUX
11 CASE STUDY 2: WINDOWS VISTA
12 CASE STUDY 3: SYMBIAN OS
13 OPERATING SYSTEMS DESIGN
14 READING LIST AND BIBLIOGRAPHY
INDEX
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DOWNLOAD Solution HERE
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