Lectures
Quantum Information and Future Society (Spring, Fall)
Undergraduate, First ~ Second Year
Introductory/General Level, for all science, engineering, technology majors
General knowledge about quantum mechanics, quantum information, and quantum computation/communication/sensing
Contemporary Physics I (Spring)
Undergraduate, Second ~ Third year
Major Level, for quantum information science and quantum computational research
Quantum Mechanics, Classical/Quantum Information
Computation Theory (Spring)
Undergraduate, Second ~ Third year
Major Level, for classical and quantum computation models, algorithms, and their limits
Quantum Information, Classical/Quantum Computational Models
Computer Architecture (Fall)
Undergraduate, Second ~ Third year
Major Level, for classical and quantum computer system architecture
Computational Models, Bit/Qubit, Gates, Processor Units, Memory
High Performance Computing (Spring)
Undergraduate, Third ~ Fourth year
Major Level, for classical and quantum high performance computing
Computation Theory, Computer Architecture, Parallal Processing, Concurrent Processing, Classical-Quantum Hybrid Computing
Quantum Computational Science (Fall)
Undergraduate, Third ~ Fourth year
Major Level, for computational science and engineering based on quantum information, quantum computation
Quantum Computational Science(simulation), Engineering(optimization), AI(deep learning) approaches
Quantum Information (Spring)
Graduate Level, for deeper knowledge about quantum information
Quantum Information, Quantum Error-Correction, Fault-Tolerant Quantum System, Quantum Stability, Quantum Reliability
Quantum Algorithm (Fall)
Graduate Level, for deeper knowledge about quantum algorithms
Non-conventional quantum computation models, advanced quantum algorithms, quantum computational approaches for complex problems
Quantum Artificial Intelligence (Spring)
Graduate Level, for deeper knowledge about quantum AI
Quantum Memory, Quantum Learning, Classical-Quantum Hybrid AI algorithms, Quantum AI Models
Advanced Quantum Computing (Fall)
Graduate Level, for deeper knowledge about quantum informational nature
Hidden quantum structures in the Nature