How can two people communicate secrets back and forth, even when a third party can eavesdrop on everything they say? Modern cryptography is an increasingly important field which helps to answer this question. It draws from a variety of mathematical and math-related fields, such as number theory, computational complexity, and the theory of algorithms. Topics may include some basic encryption-breaking techniques, the discrete logarithm problem, integer factorization and primality testing, probability and combinatorics, elliptic curves, complexity theory, and P versus NP. The course will introduce several modern techniques, such as Diffie-Hellman key exchange, ElGamal encryption, RSA, and probabilistic prime tests. While this is not a computer programming course, those interested in the subject may find this course an illuminating introduction to some theoretical aspects of the field.
Course is Full
at the time of application
on the first day of session
Completion of an algebra course.