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Revision as of 05:29, 24 April 2023
- Introduction to Information and Complexity
- Introductory course on information theory and computational complexity. We'll start from Shannon's information theory and Turing's theory of computation, then move to the theory of Kolmogorov complexity.
- Semester Offered: 2nd semester
- Course Credit: Lecture: 3 units
Contents
Prerequisites
- EEE 111 (Introduction to Programming and Computation)
- EEE 137 (Probability, Statistics and Random Processes in Electrical and Electronics Engineering)
Course Goal
- Introduce fundamental tools and frameworks to understand information and complexity in the design of computer systems.
- Introduce fundamental tools for determining the minimum amount of computational resources needed to algorithmically solve a problem.
- Information Theory
- Computational Complexity Theory
Content
This course covers information theory and computational complexity in a unified way. It develops the subject from first principles, building up from the basic premise of information to Shannon's information theory, and from the basic premise of computation to Turing's theory of computation. The duality between the two theories leads naturally to the theory of Kolmogorov complexity. The technical topics covered include source coding, channel coding, rate-distortion theory, Turing machines, computability, computational complexity, and algorithmic entropy, as well as specialized topics and projects.
We want to answer the question: How good is my solution (e.g. algorithm, architecture, system, etc.) to a computer engineering problem?
- Information Theory: data representation efficiency
- What is information?
- How do we measure information?
- Computational Complexity: complexity in time and space
- Complexity of algorithms
- Complexity of objects/data
Instructor Details
- Louis Alarcon, Ph.D.
- Email: louis.alarcon@eee.upd.edu.ph
Class Schedule
- Section WFQ - Wednesdays and Fridays, 7:00am - 8:30am
- Section WFR - Wednesdays and Fridays, 8:30am - 10:00am
Syllabus
Module | Topics | Outcomes | Resources | Activities |
---|---|---|---|---|
1 |
Introduction to Information Theory |
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2 |
Mathematical Fundamentals of Information Theory |
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3 |
Channels and Channel Capacity (2 weeks) |
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4 |
Coding Theory |
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5 |
Hyperdimensional Computing |
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6 |
Turing Machines (2 weeks)
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7 |
Kolmogorov Theory of Complexity (2 weeks)
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References
- Stone, J.V. , Information Theory: A Tutorial Introduction, Sebtel Press, 2015.
- Michael Sipser, Introduction to the Theory of Computation, 3rd edition, Cengage Learning, 2013.
- Cristopher Moore and Stephan Mertens, The Nature of Computation, Oxford University Press, Inc., 2011, USA.
- Applebaum, D. , Probability and Information: An Integrated Approach, Cambridge University Press, 2008.
- Yeung, R., Information Theory and Network Coding., Springer, 2008.
- Cover, T. M, Thomas, J. A., Elements of Information Theory, 2ed., Wiley-Interscience, 2006.
- Hankerson, D.R., Harris, G.A., Johnson, P.D. , Introduction to Information Theory and Data Compression, CRC Press, 2003.
- MacKay, D. , Information Theory, Inference, and Learning Algorithms, Cambridge University Press, 2003.
- Shannon, C. E., & Weaver, W., The mathematical theory of communication. Urbana: University of Illinois Press. 1949.
Additional Reading Materials
- Robert M. Gray, Entropy and Information Theory 1st ed. (corrected), Springer-Verlag New York 2013.
- Sanjeev Arora and Boaz Barak. (2009), Computational Complexity: A Modern Approach (1st ed.), Cambridge University Press, New York, NY, USA.
- Jon Kleinberg and Christos Papadimitriou, Computability and Complexity, Computer Science: Reflections on the Field, Reflections from the Field, Natl. Academies Press, 2004.
- Jones, Neil D., Computability and Complexity: From a Programming Perspective, 1997, The MIT Press, Cambridge, Massachusetts.