Cv Cryptovision

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	Quelques documents de Cv Cryptovision
	Side Channel Analysis Resistant Design Flow SCARD 2004 - 2006 Sujets : Economic Aspects, Information, Media, Telecommunications, Innovation, Technology Transfer, Social Aspects, Electronics, Microelectronics, Scientific Research, Information Processing, Information Systems Type de contrat : Specific Targeted Research Project Participants : TECHNIKON FORSCHUNGS- UND PLANUNGSGESELLSCHAFT MBH ÖSTERREICH TECHNIKON FORSCHUNGS- UND PLANUNGSGESELLSCHAFT MBH Research RESEARCH DEPARTMENT RICHARD-WAGNER-STRASSE 7 9500 ÖSTERREICH CV CRYPTOVISION GMBH DEUTSCHLAND CV CRYPTOVISION GMBH Industry,Other RESEARCH AND DEVELOPMENT MUNSCHEIDSTRASSE 14 45886 DEUTSCHLAND TECHNISCHE UNIVERSITAET GRAZ - INSTITUT FUER ANGEWANDTE INFORMATIONSVERARBEITUNG UND KOMMUNIKATIONSTECHNOLOGIE ÖSTERREICH TECHNISCHE UNIVERSITAET GRAZ - INSTITUT FUER ANGEWANDTE INFORMATIONSVERARBEITUNG UND KOMMUNIKATIONSTECHNOLOGIE Education,Other INSTITUTE FOR APPLIED INFORMATION PROCESSING AND COMMUNICATI INFFELDGASSE 16A 8010 ÖSTERREICH UNIVERSITE CATHOLIQUE DE LOUVAIN BELGIQUE-BELGIË UNIVERSITE CATHOLIQUE DE LOUVAIN Education FACULT¿ES SCIENCES APPLIQU¿ (FSA); DEPARTMENT D'ELECTRIC 1 PLACE DE L'UNIVERSITE 1348 BELGIQUE-BELGIË UNIVERSITA DEGLI STUDI DI ROMA "LA SAPIENZA" ITALIA UNIVERSITA DEGLI STUDI DI ROMA "LA SAPIENZA" Education,Other DIPARTIMENTO DI INGEGNERIA ELETTRONICA UNIVERSITA DEGLI STUD PIAZZALE ALDO MORO 5 00185 ITALIA TURKIYE BILIMSEL VE TEKNOLOJIK ARASTIRMA KURUMU TURKEY TURKIYE BILIMSEL VE TEKNOLOJIK ARASTIRMA KURUMU Research TUBITAK UEKAE ATATURK BULVARI NO. 221 KAVAKLIDERE 06100 TURKEY KATHOLIEKE UNIVERSITEIT LEUVEN BELGIQUE-BELGIË KATHOLIEKE UNIVERSITEIT LEUVEN Education,Other DEPT. ELECTRICAL ENGINEERING-ESAT, SCD/COSIC OUDE MARKT 13 3000 BELGIQUE-BELGIË INSTITUT FUER INFORMATIONSVERARBEITUNG UND COMPUTERGESTUETZTE NEUE MEDIEN ÖSTERREICH INSTITUT FUER INFORMATIONSVERARBEITUNG UND COMPUTERGESTUETZTE NEUE MEDIEN Education INSTITUT F¿R INFORMATIONSVERARBEITUNG UND COMPUTERGEST¿TZTE INFFELDGASSE 16C 8010 ÖSTERREICH INFINEON TECHNOLOGIES AG DEUTSCHLAND INFINEON TECHNOLOGIES AG Industry,Other INFINEON TECHNOLOGIES, SECURE MOBILE SOLUTIONS Postfach 800949 ST. MARTIN STRASSE 53 81609 DEUTSCHLAND CV CRYPTOVISION Germany CV CRYPTOVISION Industry RESEARCH AND DEVELOPMENT MUNSCHEIDSTRASSE 14 Germany INFINEON TECHNOLOGIES Germany INFINEON TECHNOLOGIES Industry AUTOMOTIVE & INDUSTRIAL MICROCONTROLLER AM CAMPEON 1-12 Germany Hide objective The threat of side-channel attacks is of crucial importance when designing systems with cryptographic hardware or software. Especially smart cards and related micro-chip systems have shown considerable vulnerabilities in this respect. Side-channel attacks analyse and exploit the information produced by some system by, for example, measuring its power consumption or the electro-magnetic emanation of this system. From these traces the attacker can potentially make conclusions about the secret data involved in a computation inside the system. Meanwhile, simple power analysis (SPA), differential power analysis (DPA), and their related attacks, simple and differential electro-magnetic emanation analysis (SEMA, DEMA) became known to a broader public, and thus pose the biggest threat. In the following, we will refer to these side-channel analysis methods and related attacks by using the acronym SCA. In SCARD, we propose to enhance the typical micro-chip design flow - from high level system description over register transfer layer description down to gate level net lists, and finally placement and routing of the micro chip - in order to provide a means for designing side-channel resistant circuits and systems. Moreover, we intend to study the whole phenomenon of SCA in a consistent manner, and will also provide appropriate analysis tools and design tools for the designer of secure systems. We consider these additional ingredients of the traditional design flow of micro chips as necessary in order to enable the design of the next generation of secure and dependable devices. Source : cordis