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Towards Securing Low-Power Digital Circuits with Ultra-Low-Voltage Vdd Randomizers

Bibliographic reference Kamel, Dina ; de Streel, Guerric ; Merino Del Pozo, Santos ; Nawaz, Kashif ; Standaert, François-Xavier ; et. al. Towards Securing Low-Power Digital Circuits with Ultra-Low-Voltage Vdd Randomizers.6th International Conference on Security, privacy, and Applied Cryptographic Engineering (SPACE 2016) (Hyderabad (India), du 14/12/2016 au 18/12/2016). In: Claude Carlet, M. Anwar Hasan, Vishal Saraswat, Proceedings of the 6th International Conference on Security, Privacy, and Applied Cryptography Engineering (SPACE 2016), Springer2016, p. 233-248
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  1. Baddam Karthik, Zwolinski Mark, Evaluation of Dynamic Voltage and Frequency Scaling as a Differential Power Analysis Countermeasure, 10.1109/vlsid.2007.79
  2. Bol D., Ambroise R., Flandre D., Legat J.-D., Interests and Limitations of Technology Scaling for Subthreshold Logic, 10.1109/tvlsi.2008.2005413
  3. Chari Suresh, Rao Josyula R., Rohatgi Pankaj, Template Attacks, Cryptographic Hardware and Embedded Systems - CHES 2002 (2003) ISBN:9783540004097 p.13-28, 10.1007/3-540-36400-5_3
  4. de Streel, G., De Vos, J., Flandre, D., Bol, D.: A 65 nm 1 V to 0.5 V linear regulator with ultra low quiescent current for mixed-signal ULV SoCs. In: FTFC, pp. 1–4. IEEE (2014)
  5. Duc Alexandre, Faust Sebastian, Standaert François-Xavier, Making Masking Security Proofs Concrete, Advances in Cryptology -- EUROCRYPT 2015 (2015) ISBN:9783662467992 p.401-429, 10.1007/978-3-662-46800-5_16
  6. Hocquet Cédric, Kamel Dina, Regazzoni Francesco, Legat Jean-Didier, Flandre Denis, Bol David, Standaert François-Xavier, Harvesting the potential of nano-CMOS for lightweight cryptography: an ultra-low-voltage 65 nm AES coprocessor for passive RFID tags, 10.1007/s13389-011-0005-z
  7. Kar M., Lie D., Wolf M., De V., Mukhopadhyay S., Impact of inductive integrated voltage regulator on the power attack vulnerability of encryption engines: A simulation study, 10.1109/cicc.2014.6946135
  8. Mangard Stefan, Hardware Countermeasures against DPA – A Statistical Analysis of Their Effectiveness, Topics in Cryptology – CT-RSA 2004 (2004) ISBN:9783540209966 p.222-235, 10.1007/978-3-540-24660-2_18
  9. Mangard, S., Oswald, E., Popp, T.: Power Analysis Attacks: Revealing the Secrets of Smart Cards. Advances in Information Security. Springer, Secaucus (2007)
  10. Mather Luke, Oswald Elisabeth, Whitnall Carolyn, Multi-target DPA Attacks: Pushing DPA Beyond the Limits of a Desktop Computer, Lecture Notes in Computer Science (2014) ISBN:9783662456101 p.243-261, 10.1007/978-3-662-45611-8_13
  11. Merino Del Pozo Santos, Standaert François-Xavier, Blind Source Separation from Single Measurements Using Singular Spectrum Analysis, Lecture Notes in Computer Science (2015) ISBN:9783662483237 p.42-59, 10.1007/978-3-662-48324-4_3
  12. Nakai, T., Shiozaki, M., Kubota, T., Fujino, T.: Evaluation of on-chip decoupling capacitors effect on AES cryptographic circuit. In: SASIMI (2013)
  13. Renauld Mathieu, Kamel Dina, Standaert François-Xavier, Flandre Denis, Information Theoretic and Security Analysis of a 65-Nanometer DDSLL AES S-Box, Cryptographic Hardware and Embedded Systems – CHES 2011 (2011) ISBN:9783642239502 p.223-239, 10.1007/978-3-642-23951-9_15
  14. Renauld Mathieu, Standaert François-Xavier, Veyrat-Charvillon Nicolas, Kamel Dina, Flandre Denis, A Formal Study of Power Variability Issues and Side-Channel Attacks for Nanoscale Devices, Advances in Cryptology – EUROCRYPT 2011 (2011) ISBN:9783642204647 p.109-128, 10.1007/978-3-642-20465-4_8
  15. Sakurai T., Newton A.R., Alpha-power law MOSFET model and its applications to CMOS inverter delay and other formulas, 10.1109/4.52187
  16. Singh Arvind, Kar Monodeep, Ko Jong Hwan, Mukhopadhyay Saibal, Exploring power attack protection of resource constrained encryption engines using integrated low-drop-out regulators, 10.1109/islped.2015.7273503
  17. Standaert François-Xavier, Malkin Tal G., Yung Moti, A Unified Framework for the Analysis of Side-Channel Key Recovery Attacks, Advances in Cryptology - EUROCRYPT 2009 (2009) ISBN:9783642010002 p.443-461, 10.1007/978-3-642-01001-9_26
  18. Standaert François-Xavier, Veyrat-Charvillon Nicolas, Oswald Elisabeth, Gierlichs Benedikt, Medwed Marcel, Kasper Markus, Mangard Stefan, The World Is Not Enough: Another Look on Second-Order DPA, Advances in Cryptology - ASIACRYPT 2010 (2010) ISBN:9783642173721 p.112-129, 10.1007/978-3-642-17373-8_7
  19. Takamiya Makoto, Energy efficient design and energy harvesting for energy autonomous systems, 10.1109/vlsi-dat.2015.7114542
  20. Telandro Vincent, Kussener Edith, Malherbe Alexandre, Barthelemy Herve, On-Chip Voltage Regulator Protecting Against Power Analysis Attacks, 10.1109/mwscas.2006.381778
  21. Tiri Kris, Verbauwhede Ingrid, Securing Encryption Algorithms against DPA at the Logic Level: Next Generation Smart Card Technology, Lecture Notes in Computer Science (2003) ISBN:9783540408338 p.125-136, 10.1007/978-3-540-45238-6_11
  22. Tokunaga C., Blaauw D., Secure AES engine with a local switched-capacitor current equalizer, 10.1109/isscc.2009.4977309
  23. Veyrat-Charvillon Nicolas, Gérard Benoît, Standaert François-Xavier, Soft Analytical Side-Channel Attacks, Lecture Notes in Computer Science (2014) ISBN:9783662456101 p.282-296, 10.1007/978-3-662-45611-8_15
  24. Veyrat-Charvillon Nicolas, Medwed Marcel, Kerckhof Stéphanie, Standaert François-Xavier, Shuffling against Side-Channel Attacks: A Comprehensive Study with Cautionary Note, Advances in Cryptology – ASIACRYPT 2012 (2012) ISBN:9783642349607 p.740-757, 10.1007/978-3-642-34961-4_44
  25. Xu Teng, Wendt James B., Potkonjak Miodrag, Security of IoT systems: Design challenges and opportunities, 10.1109/iccad.2014.7001385
  26. Weize, Y., Uzun, O.A., Köse, S.: Leveraging on-chip voltage regulators as a countermeasure against side-channel attacks. In: DAC, pp. 115:1–115:6. ACM/EDAC/IEEE (2015)