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Quantum Computing & Cryptanalysis
Research on quantum circuits for cracking public-key cryptography
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- Building Shor’s Algorithm circuit for cracking RSA/ECC cryptosystem
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- Development of underlying subcircuits for cracking RSA
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- Quantum adder
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- Quantum modular adder
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- Quantum modular multiplication
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- Quantum modular exponentiation
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- Development of underlying subcircuits for cracking ECC (in prime curves, binary elliptic curves)
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- Quantum Multiplier
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- Quantum Inversion
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- Quantum Point Addition
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- Quantum circuit optimization (reducing overall depth, gate count, T-depth, etc)
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- Quantum circuit simulation (simulation on IBM Qiskit, Q-Crypton, etc)
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- Quantum resource estimation
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- Various research topics on quantum security
[Quantum Circuit for Cracking RSA Cryptosystem – High-Level Overview]
[Example: Modular Adder Library Development on Q-Crypton Visualization (Vnote)]
Research on Quantum Machine Learning
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- Study on hybrid quantum-classical deep learning for cyber security and cryptanalysis
[Hybrid Quantum-Classical Machine Operation Flow Example]
[Example of Hybrid Quantum-Classical Machine Learning Architecture]
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- Study on quantum federated learning
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- Study on quantum federated learning schemes
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- Study on implementation challenges such as development constraints, deployment strategies, and circumstances.
[Example of Quantum Federated Learning Schemes]
