Difference between revisions of "CS 8803TFC - Theoretical Foundations of Cryptography, Spring 2011"

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(Course Information)
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For more information and course policies, see the [[Media:course-info.pdf|course information and syllabus]] handout.
 
For more information and course policies, see the [[Media:course-info.pdf|course information and syllabus]] handout.
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== Assignments ==
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* [[:Media:hw1.pdf|Homework 1]] (posted Jan 18): due Jan 27 ([[Media:hw1.tex|template]], [[:Media:header.tex|header file]]).
  
 
== Handouts and Lecture Notes ==
 
== Handouts and Lecture Notes ==

Revision as of 12:37, 17 January 2011

CryptoBook.jpg Goldreich1.jpg Goldreich2.jpg


Course Information

Instructor: Chris Peikert

Time: Tue/Thu 3-4:30pm (First meeting: Jan 11th Jan 18th, due to weather)

Location: College of Computing Building, Room 102

Summary: Cryptography, or "secret writing," is nearly as old as written communication itself. Yet only over the past few decades has it grown from a "black art" into a true science with rigorous mathematical foundations and methodologies. These have taken cryptography far beyond its roots in simple secret codes, to a discipline with far-reaching influence on computing as a whole.

This class is a graduate-level, theory-oriented introduction to the foundations of modern cryptography. The emphasis is on essential concepts, precise models and definitions, and proof techniques. Topics include: one-way functions and related complexity assumptions, pseudorandomness, public-key and identity-based crypto, zero knowledge and commitment, and connections to diverse areas of computer science. As time permits, we may also touch upon specialized topic areas such as secure multiparty computation, private information retrieval, or lattice-based cryptography.

For more information and course policies, see the course information and syllabus handout.

Assignments

Handouts and Lecture Notes

Computational Hardness

Indistinguishability and Pseudorandomness

Authentication

Zero Knowledge

Special Topics

Useful Links

Archive

Previous iterations of this course: