Browse > Article

사물인터넷을 위한 경량암호와 양자컴퓨터  

Jang, Kyungnae (한성대학교 IT융합공학부)
Kim, Hyunji (한성대학교 IT융합공학부)
Song, Gyeongju (한성대학교 IT융합공학부)
Yang, Yujin (한성대학교 IT융합공학부)
Lim, Sejin (한성대학교 IT융합공학부)
Seo, Hwajeong (한성대학교 IT융합공학부)
Publication Information
Review of KIISC / v.32, no.2, 2022 , pp. 59-67 More about this Journal
Keywords
Citations & Related Records
연도 인용수 순위
  • Reference
1 "Set up a local development environment for Azure Quantum," [internet], https://docs.microsoft.com/ko-kr/azure/quantum/install-overview-qdk
2 "IonQ provider," [internet], https://docs.microsoft.com/en-us/azure/quantum/provider-ionq#quantum-simulator
3 T. G. Draper, S. A. Kutin, E. M. Rains, and K. M. Svore, "A logarithmic-depth quantum carry-lookahead adder, " Quantum Inf. Comput. vol.6, no.4-5, pp. 351-369, 2006.
4 S, A. Cuccaro, T. G. Draper, S. A. Kutin, D. P. Moulton, "A new quantum ripple-carry addition circuit," arXiv, https://arxiv.org/%20pdf/quant-ph/0410184.pdf. 2008.
5 K.B. Jang, G.J. Song, H.J. Kim, H.D. Kwon, H,J. Kim, and H.J. Seo, "Parallel Quantum Addition for Korean Block Cipher," Cryptology ePrint Archive, Report 2021/1507, Nov. 2021.
6 K.B. Jang, G.J. Song, H.D. Kwon, S.W. Uhm, H,J. Kim, W.K. Lee, and H.J. Seo, "Grover on PIPO," Electronics, vol.11, no.11, pp. 1194, 2021.
7 V. A. Dasu, A. Baksi, S. Sarkar, and A. Chattopadhyay, "LIGHTER-R: Optimized Reversible Circuit Implementation For SBoxes," 2019 32nd IEEE International System-on-Chip Conference (SOCC), pp 260-265, 2019.
8 M. Grassl, B. Langenberg, M. Roetteler and R. Steinwandt, "Applying Grover's algorithm to AES: quantum resource estimates," Post-Quantum Cryptography, PQCrypto'16, LNCS, 9606, pp. 29-43, 2016.
9 B. Langenberg, H. Pham, and R. Steinwandt, "Reducing the Cost of Implementing AES as a Quantum Circuit," Cryptology ePrint Archive, Report 2019/854, Jul. 2019.
10 L.K. Grover, "A fast quantum mechanical algorithm for database search," Proceedings of the twenty-eighth annual ACM symposium on Theory of computing, pp. 212-219, 1996.
11 C. Gonzalez, "Cloud based QC with Amazon Braket." Digitale Welt 5.2 (2021): 14-17.   DOI
12 NIST, "Submission requirements and evaluation criteria for the post-quantum cryptography standardization process," [internet], https://csrc.nist.gov/CSRC/media/Projects/Post-Quantum-Cryptography/documents/call-for-proposals-final-dec-2016.pdf.
13 F.Arute, K.Arya, R.Babbush, D.Bacon, J.C.Bardin, R.Barends, and J.M.Martinis, "Quantum supremacy using a programmable superconducting processor," Nature, 574(7779), pp.505-510, Oct 2019.   DOI
14 Microsoft, "Microsoft has demonstrated the underlying physics required to create a new kind of qubit," [internet], https://www.microsoft.com/enus/research/blog/microsoft-has-demonstrated-the-underlying-physics-required-to-create-a-new-kind-of-qubit/
15 Aws, "Designing a fault-tolerant quantum comput er based on Schrodinger-cat qubits," [internet], https://aws.amazon.com/ko/blogs/quantum-computing/designing-a-fault-tolerant-quantum-computer-with-cat-qubits/
16 G. Aleksandrowicz et al, "Qiskit: An Open-source Framework for Quantum Computing (0.7.2)," Zenodo. https://doi.org/10.5281/zenodo.2562111.
17 IBM, "IBM's roadmap for building an open quantum software ecosystem"[internet], https://research.ibm.com/blog/quantum-development-roadmap
18 Microsoft, "overview understanding quantum computing" [internet], https://docs.microsoft.com/ko-kr/azure/quantum/overview-understanding-quantum-computing
19 "Honeywell provider," [internet], https://docs.microsoft.com/en-us/azure/quantum/provider-honeywell
20 K.B. Jang, S.J. Choi, H.D. Kwon, H.J. Kim, J.H. Park, and H.J. Seo, "Grover on Korean Block Ciphers," Applied Sciences, vol. 10, no. 18, pp. 6407, Sep. 2020.   DOI
21 K.B. Jang, G.J. Song, H.J. Kim, H.D. Kwon, H,J. Kim, and H.J. Seo, "Efficient Implementation of PRESENT and GIFT on Quantum Computers," Applied Sciences, vol.11, no.11, pp. 4776, 2021.   DOI
22 S. Jaques. M. Naehrig, M. Roetteler, and F. Virdia, "Parallel Quantum Addition for Korean Block Cipher," Cryptology ePrint Archive, Report 2019/1146, Oct. 2019.