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 | 2012 | |
|---|---|---|
| j2 |      | Philipp Grabher, Johann Großschädl, Simon Hoerder, Kimmo Järvinen, Daniel Page, Stefan Tillich, Marcin Wójcik: An exploration of mechanisms for dynamic cryptographic instruction set extension. J. Cryptographic Engineering 2(1): 1-18 (2012) |
| c31 | | Robert Beat, Philipp Grabher, Daniel Page, Stefan Tillich, Marcin Wójcik: On reconfigurable fabrics and generic side-channel countermeasures. FPL 2012: 663-666 |
| c30 | | Stefan Tillich, Marcin Wójcik: Security Analysis of an Open Car Immobilizer Protocol Stack. INTRUST 2012: 83-94 |
| c29 | | Johann Großschädl, Dan Page, Stefan Tillich: Efficient Java Implementation of Elliptic Curve Cryptography for J2ME-Enabled Mobile Devices. WISTP 2012: 189-207 |
| i7 | | Robert Beat, Philipp Grabher, Dan Page, Stefan Tillich, Marcin Wójcik: On Reconfigurable Fabrics and Generic Side-Channel Countermeasures. IACR Cryptology ePrint Archive 2012: 353 (2012) |
| i6 | | Stefan Tillich, Marcin Wójcik: Security Analysis of an Open Car Immobilizer Protocol Stack. IACR Cryptology ePrint Archive 2012: 617 (2012) |
| 2011 | ||
| c28 | | Stefan Tillich, Mario Kirschbaum, Alexander Szekely: Implementation and Evaluation of an SCA-Resistant Embedded Processor. CARDIS 2011: 151-165 |
| c27 | | Philipp Grabher, Johann Großschädl, Simon Hoerder, Kimmo Järvinen, Dan Page, Stefan Tillich, Marcin Wójcik: An Exploration of Mechanisms for Dynamic Cryptographic Instruction Set Extension. CHES 2011: 1-16 |
| c26 | | Simon Hoerder, Marcin Wójcik, Stefan Tillich, Daniel Page: An Evaluation of Hash Functions on a Power Analysis Resistant Processor Architecture. WISTP 2011: 160-174 |
| 2010 | ||
| c25 | | Stefan Tillich, Mario Kirschbaum, Alexander Szekely: SCA-resistant embedded processors: the next generation. ACSAC 2010: 211-220 |
| c24 | | Jean-François Gallais, Johann Großschädl, Neil Hanley, Markus Kasper, Marcel Medwed, Francesco Regazzoni, Jörn-Marc Schmidt, Stefan Tillich, Marcin Wójcik: Hardware Trojans for Inducing or Amplifying Side-Channel Leakage of Cryptographic Software. INTRUST 2010: 253-270 |
| i5 | | Simon Hoerder, Marcin Wójcik, Stefan Tillich, Dan Page: An Evaluation of Hash Functions on a Power Analysis Resistant Processor Architecture. IACR Cryptology ePrint Archive 2010: 614 (2010) |
| 2009 | ||
| c23 | | |
| c22 | | Gernot R. Bauer, Philipp Potisk, Stefan Tillich: Comparing Block Cipher Modes of Operation on MICAz Sensor Nodes. PDP 2009: 371-378 |
| c21 | | Christian Lederer, Roland Mader, Manuel Koschuch, Johann Großschädl, Alexander Szekely, Stefan Tillich: Energy-Efficient Implementation of ECDH Key Exchange for Wireless Sensor Networks. WISTP 2009: 112-127 |
| i4 | | Stefan Tillich: Hardware Implementation of the SHA-3 Candidate Skein. IACR Cryptology ePrint Archive 2009: 159 (2009) |
| i3 | | Stefan Tillich, Martin Feldhofer, Wolfgang Issovits, Thomas Kern, Hermann Kureck, Michael Mühlberghuber, Georg Neubauer, Andreas Reiter, Armin Köfler, Mathias Mayrhofer: Compact Hardware Implementations of the SHA-3 Candidates ARIRANG, BLAKE, Gröstl, and Skein. IACR Cryptology ePrint Archive 2009: 349 (2009) |
| i2 | | Stefan Tillich, Martin Feldhofer, Mario Kirschbaum, Thomas Plos, Jörn-Marc Schmidt, Alexander Szekely: High-Speed Hardware Implementations of BLAKE, Blue Midnight Wish, CubeHash, ECHO, Fugue, Gröstl, Hamsi, JH, Keccak, Luffa, Shabal, SHAvite-3, SIMD, and Skein. IACR Cryptology ePrint Archive 2009: 510 (2009) |
| 2008 | ||
| j1 | | Stefan Tillich, Martin Feldhofer, Thomas Popp, Johann Großschädl: Area, Delay, and Power Characteristics of Standard-Cell Implementations of the AES S-Box. Signal Processing Systems 50(2): 251-261 (2008) |
| c20 | | Stefan Tillich, Christoph Herbst: Attacking State-of-the-Art Software Countermeasures-A Case Study for AES. CHES 2008: 228-243 |
| c19 | | Stefan Tillich, Christoph Herbst: Boosting AES Performance on a Tiny Processor Core. CT-RSA 2008: 170-186 |
| c18 | | Stefan Kraxberger, Udo Payer, Stefan Tillich: General security concept for embedded P2P systems. MobiQuitous 2008 |
| 2007 | ||
| c17 | | Stefan Tillich, Christoph Herbst, Stefan Mangard: Protecting AES Software Implementations on 32-Bit Processors Against Power Analysis. ACNS 2007: 141-157 |
| c16 | | Johann Großschädl, Alexander Szekely, Stefan Tillich: The energy cost of cryptographic key establishment in wireless sensor networks. ASIACCS 2007: 380-382 |
| c15 | | Stefan Tillich, Johann Großschädl: Power Analysis Resistant AES Implementation with Instruction Set Extensions. CHES 2007: 303-319 |
| c14 | | Johann Großschädl, Stefan Tillich, Christian Rechberger, Michael Hofmann, Marcel Medwed: Energy evaluation of software implementations of block ciphers under memory constraints. DATE 2007: 1110-1115 |
| c13 | | Johann Großschädl, Stefan Tillich, Alexander Szekely: Performance Evaluation of Instruction Set Extensions for Long Integer Modular Arithmetic on a SPARC V8 Processor. DSD 2007: 680-689 |
| c12 | | Stefan Tillich, Johann Großschädl: VLSI Implementation of a Functional Unit to Accelerate ECC and AES on 32-Bit Processors. WAIFI 2007: 40-54 |
| i1 | | Johann Großschädl, Alexander Szekely, Stefan Tillich: The Energy Cost of Cryptographic Key Establishment in Wireless Sensor Networks. IACR Cryptology ePrint Archive 2007: 3 (2007) |
| 2006 | ||
| c11 | | Stefan Tillich, Johann Großschädl: Instruction Set Extensions for Efficient AES Implementation on 32-bit Processors. CHES 2006: 270-284 |
| c10 | | Manuel Koschuch, Joachim Lechner, Andreas Weitzer, Johann Großschädl, Alexander Szekely, Stefan Tillich, Johannes Wolkerstorfer: Hardware/Software Co-design of Elliptic Curve Cryptography on an 8051 Microcontroller. CHES 2006: 430-444 |
| c9 | | Elisabeth Oswald, Stefan Mangard, Christoph Herbst, Stefan Tillich: Practical Second-Order DPA Attacks for Masked Smart Card Implementations of Block Ciphers. CT-RSA 2006: 192-207 |
| c8 | | Johann Großschädl, Paolo Ienne, Laura Pozzi, Stefan Tillich, Ajay K. Verma: Combining algorithm exploration with instruction set design: a case study in elliptic curve cryptography. DATE 2006: 218-223 |
| c7 | | Stefan Tillich, Martin Feldhofer, Johann Großschädl: Area, Delay, and Power Characteristics of Standard-Cell Implementations of the AES S-Box. SAMOS 2006: 457-466 |
| 2005 | ||
| c6 | | Johann Großschädl, Roberto Maria Avanzi, Erkay Savas, Stefan Tillich: Energy-Efficient Software Implementation of Long Integer Modular Arithmetic. CHES 2005: 75-90 |
| c5 | | Stefan Tillich, Johann Großschädl, Alexander Szekely: An Instruction Set Extension for Fast and Memory-Efficient AES Implementation. Communications and Multimedia Security 2005: 11-21 |
| c4 | | Stefan Tillich, Johann Großschädl: Accelerating AES Using Instruction Set Extensions for Elliptic Curve Cryptography. ICCSA (2) 2005: 665-675 |
| 2004 | ||
| c3 | | Stefan Tillich, Johann Großschädl: A Simple Architectural Enhancement for Fast and Flexible Elliptic Curve Cryptography over Binary Finite Fields GF(2m). Asia-Pacific Computer Systems Architecture Conference 2004: 282-295 |
| c2 | | Stefan Tillich, Johann Großschädl: A Survey of Public-Key Cryptography on J2ME-Enabled Mobile Devices. ISCIS 2004: 935-944 |
| c1 |  | Johann Großschädl, Karl C. Posch, Stefan Tillich: Architectural Enhancements to Support Digital Signal Processing and Public-Key Cryptography. WISES 2004: 129-143 |
Colors in the list of coauthors
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