Quantum Cryptography

Major: Security of Information and Communication Systems
Code of subject: 7.125.01.M.018
Credits: 5.00
Department: Information Technology Security
Lecturer: Assoc. Prof. Stepan Voytusik.
Semester: 2 семестр
Mode of study: денна
Learning outcomes: • Acquire basic knowledge in the transformation of information in quantum systems, their advantages and limitations in comparison with classical calculations; • Know the basic principles of the theory of quantum cryptography; Quantum key distribution; basic quantum protocols; quantum cryptanalysis algorithms, cryptography algorithms quantum cryptography. • Be able to use the acquired knowledge for the development of systems and devices for processing quantum information and quantum computation.
Required prior and related subjects: • Cryptographic systems and protocols; • Basics of discrete mathematics; • Applied cryptology.
Summary of the subject: Basic concepts of quantum information theory. Quantum states. Measurement. Data on the quantum channels. Quantum error correction codes. Quantum key distribution protocol VV84. B92 protocol. PNS - attack. Records: 4 + 2, SARG04. Quantum crypto analysis. Shor algorithm. Postkvantovi algorithms.
Assessment methods and criteria: Written examination. • Oral examination in the form of an interview. Evaluation of the course project is carried out on a 100-point scale, which consists of two parts: 1) implementation of a course project (analytical, technical parts, graphic part - 60 points) and 2) project defence (presentation, answers to the question - 40 points).
Recommended books: 1. Д.А.Кронберг, Ю.И.Ожигов, А.Ю. Чернявский. Квантовая криптография. Учебное пособие. МГУ имени М.В.Ломоносова, факультет ВМК. 2010, 112 с. 2. А.С. Холево. Введение в квантовую информацию. МЦНМО, 2002 3. М. Нильсен, И. Чанг. Квантовые вычисления и квантовая связь. Москва, Мир, 2006. 4. Горбенко Ю.І., Горбенко І.Д. Інфраструктури відкритих ключів. Системи ЕЦП. Теорія та практика. - Х.: Форт, 2010. – 593 с. 5. Д. Боумейстер, А. Экерт, А. Цайлингер. Физика квантовой информации. Москва, Постмаркет, 2002.