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| FIZL7193 | Quantum Computing Theory | 3+0+0 | ECTS:7.5 | | Year / Semester | Spring Semester | | Level of Course | Third Cycle | | Status | Elective | | Department | DEPARTMENT of PHYSICS | | Prerequisites and co-requisites | None | | Mode of Delivery | Face to face | | Contact Hours | 14 weeks - 3 hours of lectures per week | | Lecturer | -- | | Co-Lecturer | Asst.Prof.Dr.Mehmet Demirci | | Language of instruction | Turkish | | Professional practise ( internship ) | None | | | | The aim of the course: | | Learning quantum computaing theory |
| Programme Outcomes | CTPO | TOA | | Upon successful completion of the course, the students will be able to : | | | | PO - 1 : | learn quantum computaing theory | | | | PO - 2 : | learn quantum computers, quantum computing and basics of quantum mechanics | | | | CTPO : Contribution to programme outcomes, TOA :Type of assessment (1: written exam, 2: Oral exam, 3: Homework assignment, 4: Laboratory exercise/exam, 5: Seminar / presentation, 6: Term paper), PO : Learning Outcome | | |
| Basic Concepts- The circuit model of computation- A lineer algebra formulation of the circuit model- Reversible computation- Fundamental Quantum Theory - Quantum states- Observables - Measuring - Dynamics - Pauli matrices - Graham-Schmidt procedure - Assembling quantum systems - Dirac Notation- Qubits and its Properties- Bloch sphere- Examples for the Quantum Systems- Classical and Quantum Computing Models- Bell's inequality - Partial trace - Entanglement - Measures of entanglement - Schmidt measure - Von Neumann entropy of the subsystem - Negativity - State purification - Quantum Gates and Circuits - Single qubit gates - two qubit gates - Three qubit gates - Quantitative measures of quality of a circuits - Circuits optimization rules - Moving rule. |
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| Course Syllabus | | Week | Subject | Related Notes / Files | | Week 1 | Quantum computers and quantum computing | | | Week 2 | Basic quantum theory | | | Week 3 | Basic quantum theory (Continues) | | | Week 4 | Dirac notation | | | Week 5 | Qubits and its properties | | | Week 6 | Bloch sphere | | | Week 7 | Quantum correlations | | | Week 8 | midterm exam | | | Week 9 | Bell inequalities | | | Week 10 | Quantum system realizations- Rabi oscillations | | | Week 11 | Quantum system realizations- NMR and MRI | | | Week 12 | Classical computing models | | | Week 13 | Quantum computing models | | | Week 14 | Quantum gates | | | Week 15 | Quantum circuits | | | Week 16 | Circuit optimization rules | | | |
| Method of Assessment | | Type of assessment | Week No | Date | Duration (hours) | Weight (%) | | Mid-term exam | 8 | 17/11/2017 | 90 | 30 | | In-term studies (second mid-term exam) | 12 | 15/12/2017 | 90 | 20 | | End-of-term exam | 16 | 05/01/2018 | 90 | 50 | | |
| Student Work Load and its Distribution | | Type of work | Duration (hours pw) | No of weeks / Number of activity | Hours in total per term | | Yüz yüze eğitim | 3 | 14 | 42 | | Sınıf dışı çalışma | 1 | 13 | 13 | | Laboratuar çalışması | 2 | 7 | 14 | | Arasınav için hazırlık | 6 | 7 | 42 | | Arasınav | 2 | 1 | 2 | | Uygulama | 3 | 4 | 12 | | Klinik Uygulama | 0 | 0 | 0 | | Ödev | 3 | 10 | 30 | | Proje | 8 | 7 | 56 | | Kısa sınav | 2 | 7 | 14 | | Dönem sonu sınavı için hazırlık | 0 | 0 | 0 | | Dönem sonu sınavı | 0 | 0 | 0 | | Diğer 1 | 0 | 0 | 0 | | Diğer 2 | 0 | 0 | 0 | | Total work load | | | 225 |
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