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Saturday, May 16, 2015

Download computers concepts and c programming bypadma reddy EBooks | Read online computers concepts and c programming bypadma reddy EBooks

Download computers concepts and c programming bypadma reddy EBooks | Read online computers concepts and c programming bypadma reddy EBooks

Concepts, Techniques, and Models of Computer Programming,
Teaching the science and the technology of programming as a unified discipline that shows the deep relationships between programming paradigms.
by Peter Van-Roy
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Finite Automata and Formal Languages: A Simple Approach,

by A. M. Padma Reddy
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Object-Oriented Programming Using C++,
Using object-oriented terminology from the start, Object-Oriented Programming Using C++, Fourth Edition, will provide readers with a solid foundation in C++ programming. Like its predecessors, the fourth edition uses clear, straightforward examples to teach both the syntax of the C++ language and sound programming principles. It begins with an overview of object-oriented programming and C++, and then builds upon this knowledge to teach increasingly complex concepts, such as inheritance, templates, handling exceptions, and advanced input and output. Aimed at providing readers with the most current programming knowledge, this edition has been updated to reflect the latest software, Visual C++ 2008. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.
by Joyce Farrell
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Microprocessor Architecture, Programming, and Applications with the 8085,
This book was first published in 1984, and it has been in the field for the last eighteen years. The microprocessor concepts that were at the cutting edge of the technology in the 1970s and '80s have become fundamentals of the computer field. It is gratifying to see such acceptance of the integrated approach to teaching microprocessor concepts. The text is intended for introductory microprocessor courses at the undergraduate level in technology and engineering. It is a comprehensive treatment of the microprocessor, covering both hardware and software based on the 8085 microprocessor family. The text assumes a course in digital logic as a prerequisite; however, it does not assume any background in programming. At the outset, though; we need to answer the following three critical questions. 1. In the early years of the twenty-first century, is an 8-bit microprocessor an appropriate device through which to teach microprocessor concepts when 32- and 64-bit microprocessors are readily available?If we consider the worldwide sales volume of microprocessor chips, the answer is a resounding yes: 8-bit microprocessors (including single-chip microcontrollers) account for more than 90 percent of the total. The 8-bit microprocessor has already established its market in the areas of industrial control, such as machine control, process control, instrumentation, and consumer appliances; these systems that include a microprocessor are known as embedded systems or microprocessor-based products. The recent 32- and 64-bit microprocessors are used primarily in microcomputers and workstations; they are so powerful that their applications are better suited to such tasks as high-speed data processing, CAD/CAM, multitasking, and multiuser systems. The 32- or 64-bit microprocessors are less likely to replace 8-bit microprocessors in industrial control applications. From the teaching point of view, we are interested in teaching the basic concepts underlying a programmable device, such as buses, machine cycles, various processes of data flow (parallel, serial, interrupts, and DMA), internal register architecture, programming, and interfacing. A general-purpose 8-bit microprocessor is an ideal device to teach these concepts, especially in a rapidly changing technological environment. When students master the basic concepts, they will be able to apply those concepts in such an environment, whether it is based on a microcontroller, an 8-bit processor with a different set of instructions, or a 64-bit processor. 2. Why shouldn't we focus on the Intel high-end 32- or 64-bit processors when PCs (personal computers) are commonly available in college laboratories?This is similar to asking why shouldn't we use LSI devices to teach basic logic concepts of AND, NAND, and OR. To teach basic concepts, we need a simple processor with an adequate instruction set. The Intel high-end processors are too difficult to comprehend at the introductory level because of their complex architecture and large instruction set. They are suitable for high-level languages and handling large databases and graphics. These processors are used primarily in PCs and network servers. 3. Why teach the 8085 microprocessor?This question has several answers. One is that any 8-bit microprocessor that is commonly available will meet the teaching criteria, and another is that the 8085 is one of the most widely used microprocessors in college laboratories. It has simple architecture and an adequate instruction set that enable instructors to teach necessary programming concepts. It is inconsequential which microprocessor is selected as the focus; the concepts are easily transferable from one device to another. Having learned basic concepts with the 8085 microprocessor, students can adapt to the microcontroller environment (such as the Intel 8051 or Motorola 68HC 11) or to the PC environment. Furthermore, peripheral devices (such as the 8255A, 8254, and 8259) are commonly used in the PC environment. One can argue for a microcontroller as a basis for an introductory course. However, the experience, of many institutions suggest that a microcontroller is an appropriate device for a higher-level course; at an introductory level, the pedagogy becomes quite cumbersome. Furthermore, general-purpose 8-bit processors are now being used in small systems such as graphic calculators, coffee machines, home appliances, and serving web pages over a TCP/IP network. PEDAGOGICAL APPROACH AND TEXT ORGANIZATION The microprocessor is a general-purpose programmable logic device. A thorough understanding of the microprocessor demands concepts and skills from two different disciplines: hardware concepts from electronics and programming skills from computer science. Hardware is the physical structure of the microprocessor, and the programming makes it come alive; one without the other is meaningless. Therefore, this text presents an integrated approach to hardware and software in the context of the 8085 microprocessor. Part I focuses on the microprocessor architecture, the 8085 instruction set, and interfacing; Part II introduces programming; and Part III integrates hardware and software concepts from the earlier sections in interfacing and designing microprocessor-based products. Each topic is covered in depth from basic concepts to industrial applications and is illustrated by numerous examples with complete schematics. The material is supported with assignments of practical applications. Part I has five chapters dealing with the hardware aspects of the microcomputer as a system, presented with the spiral approach that is similar to the view from an airplane that is getting ready to land. As the plane circles around, what one observes is a view without any details. As the plane starts descending, one begins to see more details. This approach is preferable because students need to use a microcomputer as a system in their laboratory work in the early stages of a course, without having an understanding of all aspects of the system. Chapter 1 presents an overview of microprocessor-based systems with an illustration of a microprocessor-controlled temperature system (MCTS). It presents the 8-bit microprocessor as a programmable device and an embedded controller, rather than a computing device or CPU used in computers. Chapter 2 introduces the instruction set of the 8085 processor. Chapters 3, 4, and 5 examine microprocessor architecture, memory, and I/O, with each chapter having increasing depth-from registers to instruction timing and interfacing. Part II has six chapters dealing with 8085 instructions, programming techniques, program development, and software development systems. The contents are presented in a step-by-step format. A few instructions that can perform a simple task are selected. Each instruction is described fully with illustrations of its operations and its effects on the selected flags. Then these instructions are used in writing programs, accompanied by programming techniques and troubleshooting hints. Each illustrative program begins with a problem statement, provides the analysis of the problem, illustrates the program, and explains the programming steps. The chapters conclude with reviews of all the instructions discussed. The contents of Part II are presented in such a way that, in a course with heavy emphasis on hardware, students can teach themselves assembly language programming if necessary. Part III synthesizes the hardware concepts of Part I and the software techniques of Part II. It deals with the interfacing of I/Os, with numerous industrial and practical examples. Each illustration analyzes the hardware, includes software, and describes how hardware and software work together to accomplish given objectives. Chapters 12 through 16 include various types of data transfer between the microprocessor and its peripherals such as interrupts, interfacing of data converters, I/O with handshake signals using programmable devices, and serial I/O. Chapter 14 discusses special-purpose programmable devices used primarily with the 8085 systems (such as the 8155), while Chapter 15 discusses general-purpose programmable devices (such as the 8255A, 8254, 8259, and 8237). Chapter 17 deals primarily with the project design of a single-board microcomputer that brings together all the concepts discussed in the text. Chapter 18 discusses trends in microprocessor technology ranging from recent microcontrollers to the latest general-purpose 32- and 64-bit microprocessors. NEW AND IMPROVED FEATURES IN THE FIFTH EDITION The fifth edition preserves the focus as described and includes the following changes and additions, suggested by reviewers and by faculty who have used the book in their classrooms: Chapter 1 is revised to include the most recent technological changes and introduces a block diagram of the microprocessor-controlled temperature system (MCTS). Chapter 2 introduces a programming model of the 8085 processor and its instruction set; this was Chapter 5 in previous editions. Chapters 3 and 4 include additional explanation and expansion of blocks in the MCTS. Part II (Chapters 6 through 11) has few changes in the content, except an 8085 simulator (on the CD packaged with the text) can be used to demonstrate the use of instructions. Chapter 11 is revised to include technological changes in PC development systems. Chapter 15 includes an additional interfacing application in the context of the MCTS. Chapter 18 is updated to include the latest technological changes in 32- and 64-bit microprocessors. Appendix D includes data sheets of additional devices such as the LM135 temperature sensor. Appendix H is added to include detailed information on the 8085 simulator. A WORD WITH FACULTY This text is based on my teaching experience, my course development efforts, and my association with industry engineers and programmers. It is an attempt to share my classroom experiences and my observations of industrial practices. Some of my assumptions and observations of eighteen years ago appear still valid today: Software (instructions) is an integral part of the microprocessor and demands emphasis equal to that of the hardware. In industry, for development of microprocessor-based projects, 70 percent of the effort is devoted to software and 30 percent to hardware. Technology and engineering students tend to be hardware oriented and have considerable difficulty in programming. Students have. difficulty in understanding mnemonics and realizing the critical importance of flags. In the last eighteen years, numerous faculty members have shared their classroom experiences, concerns, and student difficulties with me through letters and e-mail messages. I have made every effort to incorporate those concerns and suggestions in the fifth edition. This revised edition can be used flexibly to meet the objectives of various courses at the undergraduate level. If used for a one-semester course with 50 percent hardware and 50 percent software emphasis, the following chapters are recommended: Chapters 1 through 5 for hardware lectures and Chapters 6 through 9 and selected sections of Chapter 10 for software laboratory sessions. For interfacing, the initial sections of Chapters 12 and 16 (introduction to interrupts and serial I/O) are recommended. If the course is heavily oriented toward hardware, Chapters 1 through 5 and Chapters 12 through 17 are recommended, and necessary programs can be selected from Chapters 6 through 9. If the course is heavily oriented toward software, Chapters 1 through 11 and selected portions of Chapters 12 and 16 can be used. For a two-semester course, it is best to use the entire text. A WORD WITH STUDENTS The microprocessor is an exciting, challenging, and growing field; it will pervade industry for decades to come. To meet the challenges of this growing technology, you will have to be conversant with the programmable aspect of the microprocessor. Programming is a process of problem solving and communication in the language of mnemonics. Most often, hardware-oriented students find this communication process difficult. One of the questions frequently asked by students is: How do I get started in a given programming assignment? One approach to learning programming is to examine various types of programs and imitate them. You can begin by studying the illustrative program relevant to an assignment, its flowchart, its analysis, program description, and particularly the comments. Read the instructions from Appendix F as necessary and pay attention to the flags. This text is written in such a way that simple programming aspects of the microprocessor can be self-taught. Once you master the elementary programming techniques, interfacing and design become exciting and fun.
by Ramesh S. Gaonkar
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Design of Machine Elements,
This hallmark text on Machine Design almost covers the entire syllabus of all Indian Universities and Polytechnics. Each chapter is written in a simple, crisp and logical way, explaining the theoretical considerations in design of machine elements. The language is lucid and easy to understand yet precisely scientific. It covers the topics in entirety meaning thereby that for a particular topic, all the facets associated with it have been dealt in a very methodical and logical manner.
by V. B. Bhandari
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Canadian Pharmacy Exams - Pharmacist Evaluating Exam Practice, Volume 1,
Canadian Pharmacy Exams - Pharmacist Evaluating Exam Practice is designed as a self-study tool to help the student seeking pharmacy licensure in Canada test his/her exam readiness, identify areas of strength and weakness to optimize learning. The book is divided according to four key areas listed below and contains over 600 exam-type questions and answers developed to meet the Evaluating Exam learning objectives. The number of practice questions in each section reflects its relevance (weight) as per the Pharmacy Examining Board of Canada (PEBC(r)): 25% Biomedical Sciences, 35% Pharmaceutical Sciences, 30% Pharmacy Practice and 10% Behavioural, Social and Administrative Pharmacy Sciences. All Canadian content including pharmacy practice laws and regulations. Finally, answers are supplemented by numerous comments and explanations to ensure further understanding and learning of new concepts. Learn more about future publications at www.cpeprep.c
by Fatima S. Marankan
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C# in Depth,
A guide to the key topics of C# covers such topics as lambda expressions, LINQ, generics, nullable types, iterators, and extension methods.
by Jon Skeet
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John Murtagh's General Practice,
The reference GPs rely on when practical experience counts. John Murtaghs General Practice is widely recognized as the most influential publication for general practice and primary health care. Now in its fifth edition, this gold standard reference comprehensively covers the entire spectrum of general practice. Key Features *three new chapters covering infections of the central nervous system, refugee health and colloquial expressions in medicine *expanded coverage with two chapters on travel medicine and tropical medicine and the returned traveler *expanded coverage with two chapters on menopause and osteoporosis *an increased focus on evidenced-based medicine *updated and peer reviewed to reflect the latest medical developments *insightful coverage of conditions that clinicians see, and often struggle with, in daily practice *with over 80 new photographs and illustrations, there are now more than 800 full-colour visual references Praise for John Murtagh You only need to look at how he writes his books to see that he is a great educator and a wonderful general practitioner who teaches in a very practical, intelligent and focused way, Michael Kidd, in Australian Doctor 2005 (as President of the RACGP) Murtaghs textbooks and his teaching are equally legendary. General Practice, Patient Education and Practice Tips have sold more than 50,000 copies excluding nine language translations and several English reprints in India. John Murtagh was in the top 10 of Australian Doctors 50 most influential people in general practice 2005. General Practice was described as the authoritative source for both established GPs and those starting out; the book has a place in just about every GP surgery in the country. The renowned John Murtagh is Emeritus Professor in General Practice at Monash University; Professorial Fellow of General Practice at the University of Melbourne; Adjunct Clinical Professor in the Graduate School of Medicine, the University of Notre Dame and Guest Professor at Peking University Health Science Centre, Beijing. This new edition benefits from the contributions of Dr Jill Rosenblatt as a second medical author and editor. Dr Rosenblatt is a General Practitioner and Adjunct Senior Lecturer in the School of Primary Health Care at Monash University whose wealth of rural and urban experience adds a new level of authority to this respected work.
by John Murtagh
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Biology: Concepts and Applications without Physiology,
Clear, engaging, and visual, BIOLOGY: CONCEPTS AND APPLICATIONS equips non-biology majors with the science they’ll need in life! Renowned for its writing style and trendsetting art, the new edition includes an enhanced visual pedagogy, learning features, and media options. Helping visual learners, Figure It Out questions in many illustrations ensure students understand the concepts. The new Data Analysis Activities at the end of every chapter help students strengthen their analytical skills. New Take Home Messages ensure students grasp key concepts while special features like the chapter opening case studies and How Would You Vote? questions enliven the subject matter and make relevant connections between biology and real-life concerns. Helpful media options include the interactive Aplia program that connects with today’s students. Throughout this issues-oriented text, the authors emphasize that biology is an ongoing endeavor carried out by a diverse community of people and prepare students to make decisions that require an understanding of the process of science and basic biological principles. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.
by Cecie Starr
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Biomedical Instrumentation: Technology and Applications,
One of the most comprehensive books in the field, this import from TATA McGraw-Hill rigorously covers the latest developments in medical imaging systems, gamma camera, PET camera, SPECT camera and lithotripsy technology. Written for working engineers, technicians, and graduate students, the book includes of hundreds of images as well as detailed working instructions for the newest and more popular instruments used by biomedical engineers today.
by R. Khandpur
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Business Ethics,An Indian Perspective

by A. C. Fernando
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Biotechnology for Beginners,
Offering an exciting and colorful overview of biotechnology for professionals and students in a wide array of the life sciences, this book also appeals to the lay reader without a scientific background who is interested in an entertaining and informative introduction to the key aspects of biotechnology.
by Reinhard Renneberg
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Cad/Cam Theory & Practice 2E,

by Zeid
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B.Sc Practical Physics,

by C.L.Arora
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Business Marketing Management: B2B,
Reflecting the latest trends and issues, market-leading BUSINESS MARKETING MANAGEMENT: B2B, 11e delivers comprehensive, cutting-edge coverage that equips readers with a solid understanding of today’s dynamic B2B market. Highlighting the similarities--and emphasizing the differences--between consumer goods and B2B marketing, this proven text focuses on market analysis, organizational buying behavior, relationship management, and the ensuing adjustments required in the marketing strategy elements used to reach organizational customers. Its managerial approach ties chapter concepts directly to real-world decision making. The new edition includes additional emphasis on automated B2B practices and the impact of the Internet. A well-balanced mix of cases equips students with a variety of hands-on applications. With its complete and timely treatment of business marketing, BUSINESS MARKETING MANAGEMENT minimizes the overlap with other marketing courses. It is an excellent text for undergraduate as well as MBA-level courses. Important Notice: Media content referenced within the product description or the product text may not be available in the ebook version.
by Michael Hutt
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