Projects
Current Projects
- EPIQUS Project
Research on How to Run Photonic Module as a Universal Quantum Simulation Platform
Collaboration with EU Countries about the Photonic Quantum Computer System
2. <Q|Crypton> Project
Research on Quantitative Analysis Methods for Proving the Post-Quantum Cryptography
Collaboration with ETRI, Korea University, Hanyang University, Hansung National University, Pusan National University
Previous Projects
1. Research on Core Technologies for Fault-Tolerant System Programming, Running, Verification and Implementation
Abstract: Research on key theoretical primitives such as fault-tolerant quantum computation, circuit decomposition, algorithm mapping, quantum architecture, performance analysis, etc. Developments of quantum computing components such as programming language/compiler, mapper, controller, verifier, etc. Integrates all results into three quantum computing systems such as Type-1 QC(based on Virtual Quantum Macahine), Type-2 QC(based on in-house large scale controller), and Type-3 QC(based on Quantum-Dot Qubit Chip).
Role: Principal Investigator, Leads ~7 Researchers(Ph.d)/Year
Funding Agency: Korean National Research Foundation
2019.1~2022.3 @ ETRI, Korea
Key Results: Three Models of Quantum Computing System (Type-1 QC, Type-2 QC, Type-3 QC); Four SW tools (QC-DNA, FTQC-DNA, QC-VV, QC-Visualizer)
2. Scalable quantum computer programming and interface technology
Abstract: Research on control and verification of quantum-dot qubit quantum computer
Role: Principal Investigator, Leads ~2 Researchers(Ph.d)/Year
Fuding Agency: Korean National Research Foundation
2019.10~2022.3 @ ETRI, Korea
Key Results: Quantum-Dot Qubit Analysis Methods
3. Research on Quantum Computing Platform and its Cost Effectiveness
Abstract: Research on univeral fault-tolerant quantum computing platform and its optimization methods for reducing quantum costs
Role: Principal Investigator, Leads ~3 Researchers(Ph.d)/Year
Funding Agency: ETRI, Korea
2015.1~2019.12 @ ETRI
Key Results: quantum circuit decomposition, quantum circuit mapping methods
4. Research on Quantum-Dot Quantum Computer
Abstract: Research on logical qubit design and analysis under the quantum-dot qubit model
Role: Participant Researcher
Funding Agency: Japan ImPACT, US IARPA
Period: 2013.11~2015.5 @ University of Tokyo & RIKEN, Japan
Key Results: QEC design and analysis for quantum-dot quantum computer
5. Research on Quantum Computer Science
Abstract: Research on fault-tolerant quantum computing system under Ion-Trap quantum computer
Role: Leader of one work package, Leads ~2 Researchers(Ph.d students)/Year
Funding Agency: US IARPA
Period: 2011.11~2013.10 @ Duke University, USA
Key Results: quantum logical module design and its analysis for large scale quantum computer
6. Research on Surface Code Quantum Computing System
Abstract: Theoretical Research of Surface Code Scheme for large scale quantum computer
Role: Principal Investigator
Funding Agency: Korean National Research Foundation
Period: 2010.9~2011.10 @ University of Seoul, Korea
Key Results: quantum circuit optimization for surface code scheme
7. Research on Quantum Algorithms
Abstract: Theoretical Research of quantum search algorithms
Role: Principal Investigator
Funding Agency: Korean National Research Foundation
Period: 2004.5~2006.8 @ University of York, United Kingdom
Key Results: Grover search optimizatin and its utilization for crypography primitives