Individualizing Electrical Circuits of Cryptographic Devices as a Means to Hinder Tampering Attacks Zoya Dyka, Thomas Basmer, Christian Wittke and Peter Langendoerfer System dept., IHP Frankfurt(Oder), Germany - Fields Point - Document - PDFSEARCH.IO - Document Search Engine

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	Individualizing Electrical Circuits of Cryptographic Devices as a Means to Hinder Tampering Attacks Zoya Dyka, Thomas Basmer, Christian Wittke and Peter Langendoerfer System dept., IHP Frankfurt(Oder), Germany Add to Reading List Document Date: 2015-05-08 10:18:14 Open Document File Size: 377,80 KB Share Result on Facebook Company AES / Riscure Software / Xilinx / / Currency pence / / Event Force Majeure / / Facility Wheatstone bridge / / IndustryTerm implemented cryptographic algorithm / energy consumption / target device / data processing / software implementation / identical devices / crypto devices / real word a lot of devices / cryptographic algorithms / cryptographic devices / elliptic curve point multiplication algorithm / wireless sensor networks / cryptographic algorithm / partial products / energy / / Organization ASIC / Fault Extension Board / / Person Christian Wittke / Thomas Basmer / Peter Langendoerfer / / Position Prime Minister / bit PM / integrated FPGA editor / / ProgrammingLanguage EC / / Technology FPGA / radiation / cryptography / ASIC / Montgomery elliptic curve point multiplication algorithm / implemented cryptographic algorithm / secret key / cryptographic algorithm / implemented using the Montgomery elliptic curve point multiplication algorithm / / SocialTag Elliptic curve cryptography Reconfigurable computing Power analysis Side channel attack Multiplication Field-programmable gate array Advanced Encryption Standard Elliptic curve point multiplication Xilinx Cryptography