Advanced Computer Science: Multi-Core Computing [MSc]
|Unit level:||Level 6|
|Teaching period(s):||Semester 1|
|Offered by||School of Computer Science|
|Available as a free choice unit?:||Y
The course aims to give students a good appreciation of cryptographic techniques, as they have arisen historically, and as they are used today.
OverviewCryptography is a vital component of modern electronic security technologies.
Learning outcomes are detailed on the COMP61411 course unit syllabus page on the School of Computer Science's website for current students.
- Analytical skills
- Problem solving
- Written exam - 60%
- Written assignment (inc essay) - 40%
- Early cryptography: permutations and substitutions, Vignere, Vernam, one time pads, etc.
- Rotor machines: Enigma and its relatives.
- Case study: Marian Rejewski and the breaking of the German Enigma.
- Modern cryptography, secret key: block cyphers, DES, AES, etc.
- Modern cryptography, public key: Diffie-Hellman, RSA, elliptic curves.
- Message authentication, hash functions.
- Quantum cryptography: quantum key distribution in practice.
COMP61411 reading list can be found on the School of Computer Science website for current students.
Feedback methodsFeedback is provided face to face in the lab, and online for uploaded assessed materials.
- Assessment written exam - 2 hours
- Lectures - 20 hours
- Practical classes & workshops - 15 hours
- Independent study hours - 113 hours