Hardware Security
BASIC DATA
course listing
A - main register
course code
IAS0630
course title in Estonian
Riistvara turvalisus
course title in English
Hardware Security
course volume CP
-
ECTS credits
6.00
to be declared
yes
fully online course
not
assessment form
Examination
teaching semester
autumn - spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
no
Structural units teaching the course
IA - Department of Computer Systems
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Tutvustada üliõpilastele riistvara turvalisusega seotud ohte ja lahendusi. Eelkõige vaadeldakse sellel kursusel kiibipoolseid turvaelemente ja probleeme, k.a tõelisi juhuarvugeneraatoreid ja füüsiliselt kloonimatuid funktsioone.
course aims in English
To introduce students to the many threats and solutions studied in the broad domain of hardware security. In particular, this course looks at chip-side security features and concerns, including true random number generators and physically unclonable functions.
learning outcomes in the course in Est.
Aine läbinud üliõpilane:
- teab valdkonna põhiterminoloogiat;
- saab üldiselt aru ohtudest ja ohusubjektidest integraalskeemi elutsükli jooksul;
- mõistab, kuidas külgkanalileke on ründaja eelis;
- mõistab usaldusjuure kontseptsiooni.
- teab valdkonna põhiterminoloogiat;
- saab üldiselt aru ohtudest ja ohusubjektidest integraalskeemi elutsükli jooksul;
- mõistab, kuidas külgkanalileke on ründaja eelis;
- mõistab usaldusjuure kontseptsiooni.
learning outcomes in the course in Eng.
After successfully completing the course, the student:
- knows the basic terminology of the field;
- has a general understanding of the threat landscape that integrated circuits face during their life cycle, as well as associated adversaries;
- understands how side-channel leakage is an asset to an attacker;
- understands the "root of trust" concept.
- knows the basic terminology of the field;
- has a general understanding of the threat landscape that integrated circuits face during their life cycle, as well as associated adversaries;
- understands how side-channel leakage is an asset to an attacker;
- understands the "root of trust" concept.
brief description of the course in Estonian
Riistvara turvalisuse alused: ohud, rünnakud, ründajad, usaldatavuse juured.
brief description of the course in English
Hardware security basics: threats, attacks, attackers, roots of trust.
type of assessment in Estonian
-
type of assessment in English
-
independent study in Estonian
-
independent study in English
-
study literature
- Christian Wachsmann; Ahmad-Reza Sadeghi, Physically Unclonable Functions (PUFs): Applications, Models, and Future Directions, Morgan & Claypool, 2014, doi: https://doi.org/10.2200/S00622ED1V01Y201412SPT012
- Koushanfar F. (2012) Hardware Metering: A Survey. In: Tehranipoor M., Wang C. (eds) Introduction to Hardware Security and Trust. Springer, New York, NY. https://doi.org/10.1007/978-1-4419-8080-9_5
- Zhang, JL., Qu, G., Lv, YQ. et al. A Survey on Silicon PUFs and Recent Advances in Ring Oscillator PUFs. J. Comput. Sci. Technol. 29, 664678 (2014). https://doi.org/10.1007/s11390-014-1458-1
- Koushanfar F. (2012) Hardware Metering: A Survey. In: Tehranipoor M., Wang C. (eds) Introduction to Hardware Security and Trust. Springer, New York, NY. https://doi.org/10.1007/978-1-4419-8080-9_5
- Zhang, JL., Qu, G., Lv, YQ. et al. A Survey on Silicon PUFs and Recent Advances in Ring Oscillator PUFs. J. Comput. Sci. Technol. 29, 664678 (2014). https://doi.org/10.1007/s11390-014-1458-1
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
-
practices
2.0
practices
-
exercises
0.0
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring