MEF ÜNİVERSİTESİ

School/Faculty/Institute

Graduate School

Course Code

ITC 535

Course Title in English

Quantum Computing

Course Title in Turkish

Kuantum Hesaplama

Language of Instruction

Type of Course

Flipped Classroom

Level of Course

Intermediate

Semester

Fall

Contact Hours per Week

Lecture: 3

Recitation: 0

Lab: 0

Other: 0

Estimated Student Workload

183 hours per semester

Number of Credits

7.5 ECTS

Grading Mode

Standard Letter Grade

Pre-requisites

None

Co-requisites

None

Expected Prior Knowledge

Linear Algebra, Basic Probability

Registration Restrictions

Only graduate Students

Overall Educational Objective

To learn the fundamentals of quantum computation and quantum-related concepts including superposition, entanglement and quantum teleportation. The course will review and compare classical computation against quantum computation with examples. Towards the end of the course, we shall provide some quantum algorithms and future trends. In addition, some the philosophical questions and the impact of quantum computing will be discussed.

Course Description

This course covers the fundamentals of quantum computation. Topics include the postulates of quantum mechanics, quantum computation model, superposition, entanglement, measurement, quantum teleportation, super-dense coding, quantum error correction and quantum algorithms.

Course Learning Outcomes and Competences

Upon successful completion of the course, the learner is expected to be able to:
1) Kuantum hesaplamanın temel ilkelerini öğrenmek
2) Kuantum devrelerinin temel prensiplerini öğrenmek
3) Bazı zor problemleri çözmek için kuantum devrelerini/algoritmalarını uygulayabilecek
4) Kuantum teknolojisinin diğer uygulama alanlarını öğrenmek

Program Learning Outcomes/Course Learning Outcomes	1	2	3	4
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)

Relation to Program Outcomes and Competences

N None	S Supportive	H Highly Related

	Program Outcomes and Competences	Level	Assessed by
1)		N
2)		N
3)		N
4)		N
5)		N
6)		N
7)		N
8)		N
9)		N
10)		N

Prepared by and Date	,
Course Coordinator	TUNA ÇAKAR
Semester	Fall
Name of Instructor	Doç. Dr. ŞEFİK ŞUAYB ARSLAN

Course Contents

Hafta	Konu
1)	Kuantum Hesaplamaya Giriş: Spin, foton, polarizasyon
2)	Kuantum Mekaniğinin Postülatları ve Lineer Cebire Genel Bakış
3)	Basit kuantum hesaplama modeli, kübit, kuantum durumları (Ket gösterimi), süperpozisyon, normalleştirme
4)	Kuantum durumlarının ölçümü
5)	Klasik Kapılar/Devreler ve Tersinir devreler
6)	Kuantum mantık kapıları: CNOT ve Hadamard kapıları.
7)	Evrensellik, Üniter matrisler, Faz değişimi, dönme ve Pauli kapıları: IXYZ kapıları.
8)	Kuantum Dolanıklığı ve Bell eşitsizliği.
9)	Kopyalanamazlık Teoremi ve Sonuçları
10)	Kuantum Devreleri: Çan Devresi.
11)	Süper yoğun kodlama ve Kuantum Işınlama
12)	Basit Kuantum Hatası Düzeltme
13)	Kuantum Algoritmaları: Deutch Algoritması, Deutsch-Jozsa Algoritması, Simon Algoritması.
14)	Kuantum hesaplamanın etkisi ve gelecekteki kullanım durumları.
15)	Proje/Sunum Dönemi
16)	Proje/Sunum Dönemi

Required/Recommended Readings

Kaye, Phillip, Raymond Laflamme, and Michele Mosca. An Introduction to Quantum Computing. Oxford University Press, 2007. (available online)

Teaching Methods

Flipped Classroom

Homework and Projects

Assignments and a Final Exam

Laboratory Work

None

Computer Use

Required

Other Activities

None

Assessment Methods

Assessment Tools	Count	Weight
Ödev	10	% 60
Final	1	% 40
TOTAL		% 100

Course Administration

Academic dishonesty and plagiarism will be subject to Law on Higher Education Article 54.

ECTS Student Workload Estimation

Activity	No/Weeks	Hours			Calculation
	No/Weeks per Semester	Preparing for the Activity	Spent in the Activity Itself	Completing the Activity Requirements
Ders Saati	14	2	3	2	98
Ödevler	6	8	1		54
Final	1	28	2	1	31
Total Workload					183
Total Workload/25					7.3
ECTS					7.5