Название: Feynman Lectures on Computation Автор: Richard P. Feynman Издательство: Addison-Wesley Год: 1996 ISBN: 0201489910 Формат: pdf Страниц: 303 Размер: 6,6 mb Язык: English
From 1983 to 1986, the legendary physicist and teacher Richard Feynman gave a course at Caltech called “Potentialities and Limitations of Computing Machines.”Although the lectures are over 30 years old, most of the material is timeless and presents a “Feynmanesque” overview of many standard and some not-so-standard topics in computer science. These include computability, Turing machines (or as Feynman said, “Mr. Turing's machines”), information theory, Shannon's Theorem, reversible computation, the thermodynamics of computation, the quantum limits to computation, and the physics of VLSI devices.
Taken together, these lectures represent a unique exploration of the fundamental limitations of digital computers.Feynman's philosophy of learning and discovery comes through strongly in these lectures. He constantly points out the benefits of playing around with concepts and working out solutions to problems on your own-before looking at the back of the book for the answers. As Feynman says in the lectures: “If you keep proving stuff that others have done, getting confidence, increasing complexities of your solutions-for the fun of it-then one day you'll turn around and discovers that nobody actually did that one! And that's the way to become a computer scientist.”
1.1 The File Clerk Model 1.2 Instruction Sets 1.3 Summary
2 Computer Organization
2.1 Gates and Combinational Logic 2.2 The Binary Decoder 2.3 More on Gates: Reversible Gates 2.4 Complete Sets of Operators 2.5 Flip-Flops and Computer Memory 2.6 Timing and Shift Registers
3 The Theory of Computation
3.1 Effective Procedures and Computability 3.2 Finite State Machines 3.3 The Limitations of Finite State Machines 3.4 Turing Machines 3.5 More on Turing Machines 3.6 Universal Turing Machines and the Halting Problem 3.7 Computability
4 Coding and Information Theory
4.1 Computing and Communication Theory 4.2 Error Detecting and Correcting Codes 4.3 Shannon’s Theorem 4.4 The Geometry of Message Space 4.5 Data Compression and Information 4.6 Information Theory 4.7 Further Coding Techniques 4.8 Analogue Signal Transmission
5 Reversible Computation and the Thermodynamics of Computing
5.1 The Physics of Information 5.2 Reversible Computation and the Thermodynamics of Computing 5.3 Computation: Energy Cost versus Speed 5.4 The General Reversible Computer 5.5 The Billiard Ball Computer 5.6 Quantum Computation
6 Quantum Mechanical Computers
6.1 Introduction 6.2 Computation with a Reversible Machine 6.3 A Quantum Mechanical Computer 6.4 Imperfections and Irreversible Free Energy Loss 6.5 Simplifying the Implementation 6.6 Conclusions 6.7 References
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