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Computation Structures (MIT Electrical Engineering and Computer Science),Used
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Developed as the text for the basic computer architecture course at MIT, Computation Structures integrates a thorough coverage of digital logic design with a comprehensive presentation of computer architecture. It contains a wealth of information for those who design computers or work with computer systems, spanning the entire range of topics from analog circuit design to operating systems. Ward and Halstead seek to demystify the construction of computing hardware by illustrating systematically how it is built up from digital circuits through higher level components to processors and memories, and how its design is affected by its intended uses. Computation Structures is unusually broad in scope, considering many real world problems and tradeoff decisions faced by practicing engineers. These difficult choices are confronted and given careful attention throughout the book.Topics addressed include the digital abstraction; digital representations and notation; combinational devices and circuits; sequence and state; synthesis of digital systems; finite state machines; control structures and disciplines; performance measures and tradeoffs; communication; interpretation; microinterpreter architecture; microprogramming and microcode; single sequence machines; stack architectures; register architectures; reduced instruction set computers; memory architectures; processes and processor multiplexing; process synchronization; interrupts, priorities, and real time; directions and trends.Computation Structures is included in the MIT Electrical Engineering and Computer Science series.
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- Q: What is the main focus of 'Computation Structures'? A: 'Computation Structures' primarily focuses on integrating digital logic design with computer architecture, covering a wide range of topics essential for understanding and designing computer systems.
- Q: Who is the author of this book? A: The book is authored by Stephen A. Ward, who is known for his contributions to the field of electrical engineering and computer science.
- Q: What topics are covered in 'Computation Structures'? A: The book covers various topics including digital logic, combinational circuits, state machines, memory architectures, and real-world engineering tradeoffs.
- Q: Is this book suitable for beginners in computer science? A: While 'Computation Structures' is thorough and detailed, it may be better suited for readers with a basic understanding of computer science concepts due to its in-depth exploration of complex topics.
- Q: What is the binding type of this book? A: 'Computation Structures' is available in hardcover binding, providing durability and a professional appearance.
- Q: How many pages does 'Computation Structures' have? A: 'Computation Structures' contains a total of 812 pages, making it a comprehensive resource for students and professionals.
- Q: When was 'Computation Structures' published? A: The book was published on December 13, 1989.
- Q: What is the condition of the book? A: The book is listed in 'Very Good' condition, indicating that it has been well cared for and shows minimal signs of wear.
- Q: Is 'Computation Structures' part of a series? A: 'Computation Structures' is included in the MIT Electrical Engineering and Computer Science series, which reflects its academic credibility.
- Q: What are the practical applications of the concepts in this book? A: The concepts discussed in 'Computation Structures' have practical applications in computer design, systems engineering, and various fields that require understanding of digital systems and architecture.