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“JSTS has been indexed and abstracted in the SCIE (Science Citation Index Expanded) since Volume 9, Issue 1 in 2009. Furthermore, it continues to maintain its listing in the SCOPUS database and is recognized as a regular journal by the Korea Research Foundation.

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References

1 
P. Choi, J. H. Kim, and D. K. Kim, “Improving Ring-Oscillator-based True Random Number Generators using Multiple Sampling,” JSTS, Vol. 19, No. 4, June, 2019.DOI
2 
K. Yang, D. Fick, M. B. Henry, Y. Lee, D. Blaauw and D. Sylvester, "16.3 A 23Mb/s 23pJ/b fully synthesized true-random-number generator in 28nm and 65nm CMOS," Solid-State Circuits Conference, 2014. ISSCC 2014. Digest of Technical Papers. IEEE Inter¬national, 9-13, pp. 280-281, Feb., 2014.DOI
3 
K. Yang, D. Blaauw and D. Sylvester, "An All-Digital Edge Racing True Random Number Generator Robust Against PVT Variations," Solid-State Circuits, IEEE Journal of, Vol. 51, No. 4, pp. 1022-1031, Apr., 2016.DOI
4 
E. Kim, M. Lee and J. -J. Kim, "8.2 8Mb/s 28Mb/mJ robust true-random-number generator in 65nm CMOS based on differential ring oscillator with feedback resistors," Solid-State Circuits Conference, 2017. ISSCC 2017. Digest of Technical Papers. IEEE Inter¬national, 5-09, pp. 144-145, Feb., 2017.DOI
5 
J. Park, B. Kim and J. -Y. Sim, "A PVT-Tolerant Oscillation-Collapse-Based True Random Number Generator With an Odd Number of Inverter Stages," Circuits and Systems II: Express Briefs, IEEE Transactions on, Vol. 69, No. 10, pp. 4058-4062, Oct., 2022.DOI
6 
A. T. Markettos, A. Theodore, and S. W. Moore, "The frequency injection attack on ring-oscillator-based true random number generators," Cryptographic Hardware and Embedded Systems, International Workshop on, 6-9, pp. 317-331, Sep., 2009.DOI
7 
J. Brown et al., "A low-power and high-speed True Random Number Generator using generated RTN," VLSI Technology, 2018 IEEE Symposium on, 18-22, pp. 95-96, June, 2018.DOI
8 
S. K. Mathew et al., "2.4 Gbps, 7 mW All-Digital PVT-Variation Tolerant True Random Number Generator for 45 nm CMOS High-Performance Microprocessors," Solid-State Circuits, IEEE Journal of, vol. 47, no. 11, pp. 2807-2821, Nov., 2012.DOI
9 
P. Z. Wieczorek and K. Gołofit, "True Random Number Generator Based on Flip-Flop Resolve Time Instability Boosted by Random Chaotic Source," Circuits and Systems I: Regular Papers, IEEE Transactions on, vol. 65, no. 4, pp. 1279-1292, Apr., 2018.DOI
10 
S. Satpathy et al., "An All-Digital Unified Static/Dynamic Entropy Generator Featuring Self-Calibrating Hierarchical Von Neumann Extraction for Secure Privacy-Preserving Mutual Authentication in IoT Mote Platforms," VLSI Circuits, IEEE Symposium on, 18-22, pp. 169-170, Jun., 2018.DOI
11 
S. Taneja, V. K. Rajanna and M. Alioto, "36.1 Unified In-Memory Dynamic TRNG and Multi-Bit Static PUF Entropy Generation for Ubiquitous Hardware Security," Solid-State Circuits Conference, 2021. ISSCC 2021. Digest of Technical Papers. IEEE Inter¬national, 13-22, pp. 498-500, Feb., 2021.DOI
12 
S. T. Chandrasekaran, V. E. G. Karnam and A. Sanyal, "0.36-mW, 52-Mbps True Random Number Generator Based on a Stochastic Delta–Sigma Modulator," Solid-State Circuits Letters, in IEEE, vol. 3, pp. 190-193, Jul., 2020,DOI
13 
A. Jayaraj, N. Nitin Gujarathi, I. Venkatesh and A. Sanyal, "0.6–1.2 V, 0.22 pJ/bit True Random Number Generator Based on SAR ADC," Circuits and Systems II: Express Briefs, IEEE Transactions on, vol. 67, no. 10, pp. 1765-1769, Oct. 2020.DOI
14 
X. Wei, L. Xiu and Y. Cai, "A Perspective of Using Frequency-Mixing as Entropy in Random Number Generation for Portable Hardware Cybersecurity IP," Information Forensics and Security, IEEE Transactions on, Oct., 2023.DOI
15 
K. Yang, D. Blaauw and D. Sylvester, "Hardware Designs for Security in Ultra-Low-Power IoT Systems: An Overview and Survey," Micro, IEEE, vol. 37, no. 6, pp. 72-89, Nov./Dec., 2017.DOI
16 
A. Alaghi, and J. P. Hayes. "Survey of stochastic computing," Embedded computing systems (TECS), ACM Transactions on, vol. 12, no. 92, pp. 1-19, 2013.DOI
17 
S. Gupta et al., “Deep learning with limited numerical precision,” Machine Learning (PMLR), International conference on, pp. 1737-1746, 2015.URL
18 
J. Bae, W. Oh, J. Koo, C. Yu and B. Kim, "CTLE-Ising: A Continuous-Time Latch-Based Ising Machine Featuring One-Shot Fully Parallel Spin Updates and Equalization of Spin States," Solid-State Circuits, IEEE Journal of, pp. 1-11, Oct., 2023.DOI
19 
E. Lawrence et al., “SP 800-22 rev. 1a. a statistical test suite for random and pseudo-random number generators for cryptographic applications,” National Institute of Standards and Technology (NIST), Apr., 2010.URL