| 2008 |
|---|
| 20 | EE | Stefan Tillich,
Christoph Herbst:
Attacking State-of-the-Art Software Countermeasures-A Case Study for AES.
CHES 2008: 228-243 |
| 19 | EE | Stefan Tillich,
Christoph Herbst:
Boosting AES Performance on a Tiny Processor Core.
CT-RSA 2008: 170-186 |
| 18 | EE | 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) |
| 2007 |
|---|
| 17 | EE | Stefan Tillich,
Christoph Herbst,
Stefan Mangard:
Protecting AES Software Implementations on 32-Bit Processors Against Power Analysis.
ACNS 2007: 141-157 |
| 16 | EE | Johann Großschädl,
Alexander Szekely,
Stefan Tillich:
The energy cost of cryptographic key establishment in wireless sensor networks.
ASIACCS 2007: 380-382 |
| 15 | EE | Stefan Tillich,
Johann Großschädl:
Power Analysis Resistant AES Implementation with Instruction Set Extensions.
CHES 2007: 303-319 |
| 14 | EE | 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 |
| 13 | EE | 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 |
| 12 | EE | Stefan Tillich,
Johann Großschädl:
VLSI Implementation of a Functional Unit to Accelerate ECC and AES on 32-Bit Processors.
WAIFI 2007: 40-54 |
| 2006 |
|---|
| 11 | EE | Stefan Tillich,
Johann Großschädl:
Instruction Set Extensions for Efficient AES Implementation on 32-bit Processors.
CHES 2006: 270-284 |
| 10 | EE | 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 |
| 9 | EE | 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 |
| 8 | EE | 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 |
| 7 | EE | 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 |
|---|
| 6 | EE | Johann Großschädl,
Roberto Maria Avanzi,
Erkay Savas,
Stefan Tillich:
Energy-Efficient Software Implementation of Long Integer Modular Arithmetic.
CHES 2005: 75-90 |
| 5 | EE | Stefan Tillich,
Johann Großschädl,
Alexander Szekely:
An Instruction Set Extension for Fast and Memory-Efficient AES Implementation.
Communications and Multimedia Security 2005: 11-21 |
| 4 | EE | Stefan Tillich,
Johann Großschädl:
Accelerating AES Using Instruction Set Extensions for Elliptic Curve Cryptography.
ICCSA (2) 2005: 665-675 |
| 2004 |
|---|
| 3 | EE | 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 |
| 2 | EE | Stefan Tillich,
Johann Großschädl:
A Survey of Public-Key Cryptography on J2ME-Enabled Mobile Devices.
ISCIS 2004: 935-944 |
| 1 | | Johann Großschädl,
Karl C. Posch,
Stefan Tillich:
Architectural Enhancements to Support Digital Signal Processing and Public-Key Cryptography.
WISES 2004: 129-143 |
