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Georg Sigl
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- affiliation: Technical University Munich, Germany
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2020 – today
- 2024
- [j32]Felix Oberhansl, Tim Fritzmann, Thomas Pöppelmann, Debapriya Basu Roy, Georg Sigl:
Uniform instruction set extensions for multiplications in contemporary and post-quantum cryptography. J. Cryptogr. Eng. 14(1): 1-18 (2024) - [j31]Patrick Karl, Jonas Schupp, Tim Fritzmann, Georg Sigl:
Post-Quantum Signatures on RISC-V with Hardware Acceleration. ACM Trans. Embed. Comput. Syst. 23(2): 30:1-30:23 (2024) - [j30]Manuel Brosch, Matthias Probst, Matthias Glaser, Georg Sigl:
A Masked Hardware Accelerator for Feed-Forward Neural Networks With Fixed-Point Arithmetic. IEEE Trans. Very Large Scale Integr. Syst. 32(2): 231-244 (2024) - [c117]Patrick Karl, Jonas Schupp, Georg Sigl:
The Impact of Hash Primitives and Communication Overhead for Hardware-Accelerated SPHINCS+. COSADE 2024: 221-239 - [c116]Utku Budak, Fabrizio De Santis, Georg Sigl:
A Lightweight Firmware Resilience Engine for IoT Devices Leveraging Minimal Processor Features. CSR 2024: 486-491 - [c115]Tarik Ibrahimpasic, Grace Li Zhang, Michaela Brunner, Georg Sigl, Bing Li, Ulf Schlichtmann:
ScanCamouflage: Obfuscating Scan Chains with Camouflaged Sequential and Logic Gates. DATE 2024: 1-2 - [c114]Patrick Schmidt, Iuliia Topko, Matthias Stammler, Tanja Harbaum, Jürgen Becker, Rico Berner, Omar Ahmed, Jakub Jagielski, Thomas Seidler, Markus Abel, Marius Kreutzer, Maximilian Kirschner, Victor Pazmino Betancourt, Robin Sehm, Lukas Groth, Andrija Neskovic, Rolf Meyer, Saleh Mulhem, Mladen Berekovic, Matthias Probst, Manuel Brosch, Georg Sigl, Thomas Wild, Matthias Ernst, Andreas Herkersdorf, Florian Aigner, Stefan Hommes, Sebastian Lauer, Maximilian Seidler, Thomas Raste, Gasper Skvarc Bozic, Ibai Irigoyen Ceberio, Muhammad Hassan, Albrecht Mayer:
EMDRIVE Architecture: Embedded Distributed Computing and Diagnostics from Sensor to Edge. DATE 2024: 1-6 - [c113]Michaela Brunner, Hye-Hyun Lee, Alexander Hepp, Johanna Baehr, Georg Sigl:
Hardware Honeypot: Setting Sequential Reverse Engineering on a Wrong Track. DDECS 2024: 47-52 - [c112]Michael Mildner, Michaela Brunner, Michael Gruber, Johanna Baehr, Georg Sigl:
Fault-Simulation-Based Flip-Flop Classification for Reverse Engineering. DDECS 2024: 53-56 - [c111]Matthias Probst, Manuel Brosch, Michael Gruber, Georg Sigl:
DOMREP II. HOST 2024: 112-121 - 2023
- [c110]Mathieu Gross, Jonas Krautter, Dennis Gnad, Michael Gruber, Georg Sigl, Mehdi B. Tahoori:
FPGANeedle: Precise Remote Fault Attacks from FPGA to CPU. ASP-DAC 2023: 358-364 - [c109]Matthias Ludwig, Ann-Christin Bette, Bernhard Lippmann, Georg Sigl:
Counterfeit Detection by Semiconductor Process Technology Inspection. ETS 2023: 1-4 - [i29]Michaela Brunner, Hye-Hyun Lee, Alexander Hepp, Johanna Baehr, Georg Sigl:
Hardware Honeypot: Setting Sequential Reverse Engineering on a Wrong Track. CoRR abs/2305.03707 (2023) - [i28]Mathieu Gross, Robert Kunzelmann, Georg Sigl:
CPU to FPGA Power Covert Channel in FPGA-SoCs. IACR Cryptol. ePrint Arch. 2023: 429 (2023) - [i27]Matthias Probst, Manuel Brosch, Georg Sigl:
Side-Channel Analysis of Integrate-and-Fire Neurons within Spiking Neural Networks. IACR Cryptol. ePrint Arch. 2023: 505 (2023) - [i26]Patrick Karl, Jonas Schupp, Georg Sigl:
The Impact of Hash Primitives and Communication Overhead for Hardware-Accelerated SPHINCS+. IACR Cryptol. ePrint Arch. 2023: 1767 (2023) - 2022
- [j29]Mathieu Gross, Nisha Jacob, Andreas Zankl, Georg Sigl:
Breaking TrustZone memory isolation and secure boot through malicious hardware on a modern FPGA-SoC. J. Cryptogr. Eng. 12(2): 181-196 (2022) - [j28]Tim Fritzmann, Michiel Van Beirendonck, Debapriya Basu Roy, Patrick Karl, Thomas Schamberger, Ingrid Verbauwhede, Georg Sigl:
Masked Accelerators and Instruction Set Extensions for Post-Quantum Cryptography. IACR Trans. Cryptogr. Hardw. Embed. Syst. 2022(1): 414-460 (2022) - [j27]Bodo Selmke, Maximilian Pollanka, Andreas Duensing, Emanuele Strieder, Hayden Wen, Michael Mittermair, Reinhard Kienberger, Georg Sigl:
On the application of Two-Photon Absorption for Laser Fault Injection attacks Pushing the physical boundaries for Laser-based Fault Injection. IACR Trans. Cryptogr. Hardw. Embed. Syst. 2022(4): 862-885 (2022) - [j26]Michaela Brunner, Alexander Hepp, Johanna Baehr, Georg Sigl:
Toward a Human-Readable State Machine Extraction. ACM Trans. Design Autom. Electr. Syst. 27(6): 58:1-58:31 (2022) - [j25]Mathieu Gross, Konrad Hohentanner, Stefan Wiehler, Georg Sigl:
Enhancing the Security of FPGA-SoCs via the Usage of ARM TrustZone and a Hybrid-TPM. ACM Trans. Reconfigurable Technol. Syst. 15(1): 5:1-5:26 (2022) - [j24]Seyed Hamidreza Moghadas, Michael Pehl, Georg Sigl:
ROPAD: Enhancing the Digital Ring Oscillator Probing Attempt Detector for Protecting Irregular Data Buses. IEEE Trans. Very Large Scale Integr. Syst. 30(11): 1716-1727 (2022) - [c108]Maximilian Egger, Thomas Schamberger, Lars Tebelmann, Florian Lippert, Georg Sigl:
A Second Look at the ASCAD Databases. COSADE 2022: 75-99 - [c107]Manuel Brosch, Matthias Probst, Georg Sigl:
Counteract Side-Channel Analysis of Neural Networks by Shuffling. DATE 2022: 1305-1310 - [c106]Alexander Hepp, Johanna Baehr, Georg Sigl:
Golden Model-Free Hardware Trojan Detection by Classification of Netlist Module Graphs. DATE 2022: 1317-1322 - [c105]Patrick Karl, Tim Fritzmann, Georg Sigl:
Hardware Accelerated FrodoKEM on RISC-V. DDECS 2022: 154-159 - [c104]Johanna Baehr, Alexander Hepp, Michaela Brunner, Maja Malenko, Georg Sigl:
Open Source Hardware Design and Hardware Reverse Engineering: A Security Analysis. DSD 2022: 504-512 - [c103]Alexander Hepp, Tiago D. Perez, Samuel Pagliarini, Georg Sigl:
A Pragmatic Methodology for Blind Hardware Trojan Insertion in Finalized Layouts. ICCAD 2022: 69:1-69:9 - [c102]Thomas Schamberger, Lukas Holzbaur, Julian Renner, Antonia Wachter-Zeh, Georg Sigl:
A Power Side-Channel Attack on the Reed-Muller Reed-Solomon Version of the HQC Cryptosystem. PQCrypto 2022: 327-352 - [i25]Alexander Hepp, Tiago D. Perez, Samuel Pagliarini, Georg Sigl:
A Pragmatic Methodology for Blind Hardware Trojan Insertion in Finalized Layouts. CoRR abs/2208.09235 (2022) - [i24]Michael Gruber, Georg Sigl:
TOFU - Toggle Count Analysis made simple. IACR Cryptol. ePrint Arch. 2022: 129 (2022) - [i23]Patrick Karl, Jonas Schupp, Tim Fritzmann, Georg Sigl:
Post-Quantum Signatures on RISC-V with Hardware Acceleration. IACR Cryptol. ePrint Arch. 2022: 538 (2022) - [i22]Thomas Schamberger, Lukas Holzbaur, Julian Renner, Antonia Wachter-Zeh, Georg Sigl:
A Power Side-Channel Attack on the Reed-Muller Reed-Solomon Version of the HQC Cryptosystem. IACR Cryptol. ePrint Arch. 2022: 724 (2022) - 2021
- [j23]Johanna Sepúlveda, Mathieu Gross, Andreas Zankl, Georg Sigl:
Beyond Cache Attacks: Exploiting the Bus-based Communication Structure for Powerful On-Chip Microarchitectural Attacks. ACM Trans. Embed. Comput. Syst. 20(2): 17:1-17:23 (2021) - [j22]Alexander Kulow, Thomas Schamberger, Lars Tebelmann, Georg Sigl:
Finding the Needle in the Haystack: Metrics for Best Trace Selection in Unsupervised Side-Channel Attacks on Blinded RSA. IEEE Trans. Inf. Forensics Secur. 16: 3254-3268 (2021) - [j21]Michael Gruber, Matthias Probst, Patrick Karl, Thomas Schamberger, Lars Tebelmann, Michael Tempelmeier, Georg Sigl:
DOMREP-An Orthogonal Countermeasure for Arbitrary Order Side-Channel and Fault Attack Protection. IEEE Trans. Inf. Forensics Secur. 16: 4321-4335 (2021) - [c101]Alexander Hepp, Georg Sigl:
Tapeout of a RISC-V crypto chip with hardware trojans: a case-study on trojan design and pre-silicon detectability. CF 2021: 213-220 - [c100]Stefan Hristozov, Manuel Huber, Lei Xu, Jaro Fietz, Marco Liess, Georg Sigl:
The Cost of OSCORE and EDHOC for Constrained Devices. CODASPY 2021: 245-250 - [c99]Michael Gruber, Patrick Karl, Georg Sigl:
Algebraic Fault Analysis of Subterranean 2.0. FDTC 2021: 45-55 - [i21]Stefan Hristozov, Manuel Huber, Lei Xu, Jaro Fietz, Marco Liess, Georg Sigl:
The Cost of OSCORE and EDHOC for Constrained Devices. CoRR abs/2103.13832 (2021) - [i20]Tim Fritzmann, Michiel Van Beirendonck, Debapriya Basu Roy, Patrick Karl, Thomas Schamberger, Ingrid Verbauwhede, Georg Sigl:
Masked Accelerators and Instruction Set Extensions for Post-Quantum Cryptography. IACR Cryptol. ePrint Arch. 2021: 479 (2021) - 2020
- [j20]Johanna Baehr, Alessandro Bernardini, Georg Sigl, Ulf Schlichtmann:
Machine learning and structural characteristics for reverse engineering. Integr. 72: 1-12 (2020) - [j19]Matthias Hiller, Ludwig Kürzinger, Georg Sigl:
Review of error correction for PUFs and evaluation on state-of-the-art FPGAs. J. Cryptogr. Eng. 10(3): 229-247 (2020) - [j18]Grace Li Zhang, Bing Li, Meng Li, Bei Yu, David Z. Pan, Michaela Brunner, Georg Sigl, Ulf Schlichtmann:
TimingCamouflage+: Netlist Security Enhancement With Unconventional Timing. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 39(12): 4482-4495 (2020) - [j17]Tim Fritzmann, Georg Sigl, Johanna Sepúlveda:
RISQ-V: Tightly Coupled RISC-V Accelerators for Post-Quantum Cryptography. IACR Trans. Cryptogr. Hardw. Embed. Syst. 2020(4): 239-280 (2020) - [c98]Grace Li Zhang, Michaela Brunner, Bing Li, Georg Sigl, Ulf Schlichtmann:
Timing Resilience for Efficient and Secure Circuits. ASP-DAC 2020: 623-628 - [c97]Thomas Schamberger, Julian Renner, Georg Sigl, Antonia Wachter-Zeh:
A Power Side-Channel Attack on the CCA2-Secure HQC KEM. CARDIS 2020: 119-134 - [c96]Tim Fritzmann, Georg Sigl, Johanna Sepúlveda:
Extending the RISC-V Instruction Set for Hardware Acceleration of the Post-Quantum Scheme LAC. DATE 2020: 1420-1425 - [c95]Stefan Hristozov, Manuel Huber, Georg Sigl:
Protecting RESTful IoT Devices from Battery Exhaustion DoS Attacks. HOST 2020: 316-327 - [c94]Debapriya Basu Roy, Tim Fritzmann, Georg Sigl:
Efficient Hardware/Software Co-Design for Post-Quantum Crypto Algorithm SIKE on ARM and RISC-V based Microcontrollers. ICCAD 2020: 35:1-35:9 - [c93]Michaela Brunner, Michael Gruber, Michael Tempelmeier, Georg Sigl:
Logic Locking Induced Fault Attacks. ISVLSI 2020: 114-119 - [c92]Martin Striegel, Johann Heyszl, Florian Jakobsmeier, Yacov Matveev, Georg Sigl:
Secure and user-friendly over-the-air firmware distribution in a portable faraday cage. WISEC 2020: 173-183 - [i19]Grace Li Zhang, Bing Li, Meng Li, Bei Yu, David Z. Pan, Michaela Brunner, Georg Sigl, Ulf Schlichtmann:
TimingCamouflage+: Netlist Security Enhancement with Unconventional Timing (with Appendix). CoRR abs/2003.00862 (2020) - [i18]Martin Striegel, Florian Jakobsmeier, Yacov Matveev, Johann Heyszl, Georg Sigl:
Secure and User-Friendly Over-the-Air Firmware Distribution in a Portable Faraday Cage. CoRR abs/2005.12347 (2020) - [i17]Tim Fritzmann, Georg Sigl, Johanna Sepúlveda:
RISQ-V: Tightly Coupled RISC-V Accelerators for Post-Quantum Cryptography. IACR Cryptol. ePrint Arch. 2020: 446 (2020) - [i16]Thomas Schamberger, Julian Renner, Georg Sigl, Antonia Wachter-Zeh:
A Power Side-Channel Attack on the CCA2-Secure HQC KEM. IACR Cryptol. ePrint Arch. 2020: 910 (2020)
2010 – 2019
- 2019
- [j16]Vincent Immler, Johannes Obermaier, Kuan Kuan Ng, Fei Xiang Ke, JinYu Lee, Yak Peng Lim, Wei Koon Oh, Keng Hoong Wee, Georg Sigl:
Secure Physical Enclosures from Covers with Tamper-Resistance. IACR Trans. Cryptogr. Hardw. Embed. Syst. 2019(1): 51-96 (2019) - [j15]Michael Weiner, Wolfgang Wieser, Emili Lupon, Georg Sigl, Salvador Manich:
A Calibratable Detector for Invasive Attacks. IEEE Trans. Very Large Scale Integr. Syst. 27(5): 1067-1079 (2019) - [c91]Johanna Baehr, Alessandro Bernardini, Georg Sigl, Ulf Schlichtmann:
Machine learning and structural characteristics for reverse engineering. ASP-DAC 2019: 96-103 - [c90]Mathieu Gross, Nisha Jacob, Andreas Zankl, Georg Sigl:
Breaking TrustZone Memory Isolation through Malicious Hardware on a Modern FPGA-SoC. ASHES@CCS 2019: 3-12 - [c89]Martin Striegel, Carsten Rolfes, Johann Heyszl, Fabian Helfert, Maximilian Hornung, Georg Sigl:
EyeSec: A Retrofittable Augmented Reality Tool for Troubleshooting Wireless Sensor Networks in the Field. EWSN 2019: 184-193 - [c88]Michaela Brunner, Johanna Baehr, Georg Sigl:
Improving on State Register Identification in Sequential Hardware Reverse Engineering. HOST 2019: 151-160 - [c87]Michael Tempelmeier, Maximilian Werner, Georg Sigl:
Using Hardware Software Codesign for Optimised Implementations of High-Speed and Defence in Depth CAESAR Finalists. HOST 2019: 228-237 - [c86]Matthias Niedermaier, Dominik Merli, Georg Sigl:
A Secure Dual-MCU Architecture for Robust Communication of IIoT Devices. MECO 2019: 1-5 - [i15]Martin Striegel, Carsten Rolfes, Johann Heyszl, Fabian Helfert, Maximilian Hornung, Georg Sigl:
EyeSec: A Retrofittable Augmented Reality Tool for Troubleshooting Wireless Sensor Networks in the Field. CoRR abs/1907.12364 (2019) - [i14]Matthias Niedermaier, Martin Striegel, Felix Sauer, Dominik Merli, Georg Sigl:
Efficient Intrusion Detection on Low-Performance Industrial IoT Edge Node Devices. CoRR abs/1908.03964 (2019) - [i13]Matthias Niedermaier, Dominik Merli, Georg Sigl:
A Secure Dual-MCU Architecture for Robust Communication of IIoT Devices. CoRR abs/1908.04133 (2019) - [i12]Matthias Niedermaier, Florian Fischer, Dominik Merli, Georg Sigl:
Network Scanning and Mapping for IIoT Edge Node Device Security. CoRR abs/1910.07622 (2019) - [i11]Stefan Hristozov, Manuel Huber, Georg Sigl:
Protecting RESTful IoT Devices from Battery Exhaustion DoS Attacks. CoRR abs/1911.08134 (2019) - 2018
- [j14]Philipp Koppermann, Fabrizio De Santis, Johann Heyszl, Georg Sigl:
Fast FPGA Implementations of Diffie-Hellman on the Kummer Surface of a Genus-2 Curve. IACR Trans. Cryptogr. Hardw. Embed. Syst. 2018(1): 1-17 (2018) - [j13]Michael Weiner, Salvador Manich, Rosa Rodríguez-Montañés, Georg Sigl:
The Low Area Probing Detector as a Countermeasure Against Invasive Attacks. IEEE Trans. Very Large Scale Integr. Syst. 26(2): 392-403 (2018) - [c85]Florian Unterstein, Johann Heyszl, Fabrizio De Santis, Robert Specht, Georg Sigl:
High-Resolution EM Attacks Against Leakage-Resilient PRFs Explained - And an Improved Construction. CT-RSA 2018: 413-434 - [c84]Johannes Obermaier, Vincent Immler, Matthias Hiller, Georg Sigl:
A measurement system for capacitive PUF-based security enclosures. DAC 2018: 64:1-64:6 - [c83]Georg Sigl, Mathieu Gross, Michael Pehl:
Where Technology Meets Security: Key Storage and Data Separation for System-on-Chips. ESSCIRC 2018: 12-17 - [c82]Johanna Sepúlveda, Damian Aboul-Hassan, Georg Sigl, Bernd Becker, Matthias Sauer:
Towards the formal verification of security properties of a Network-on-Chip router. ETS 2018: 1-6 - [c81]Bodo Selmke, Kilian Zinnecker, Philipp Koppermann, Katja Miller, Johann Heyszl, Georg Sigl:
Locked out by Latch-up? An Empirical Study on Laser Fault Injection into Arm Cortex-M Processors. FDTC 2018: 7-14 - [c80]Robert Specht, Vincent Immler, Florian Unterstein, Johann Heyszl, Georg Sigl:
Dividing the threshold: Multi-probe localized EM analysis on threshold implementations. HOST 2018: 33-40 - [c79]Vincent Immler, Johannes Obermaier, Martin König, Matthias Hiller, Georg Sigl:
B-TREPID: Batteryless tamper-resistant envelope with a PUF and integrity detection. HOST 2018: 49-56 - [c78]Michael Tempelmeier, Fabrizio De Santis, Georg Sigl, Jens-Peter Kaps:
The CAESAR-API in the real world - Towards a fair evaluation of hardware CAESAR candidates. HOST 2018: 73-80 - [c77]Samuel Weiser, Andreas Zankl, Raphael Spreitzer, Katja Miller, Stefan Mangard, Georg Sigl:
DATA - Differential Address Trace Analysis. Krypto-Tag 2018 - [c76]Johannes Obermaier, Florian Hauschild, Matthias Hiller, Georg Sigl:
An embedded key management system for PUF-based security enclosures. MECO 2018: 1-6 - [c75]Michael Tempelmeier, Georg Sigl, Jens-Peter Kaps:
Experimental Power and Performance Evaluation of CAESAR Hardware Finalists. ReConFig 2018: 1-6 - [c74]Samuel Weiser, Andreas Zankl, Raphael Spreitzer, Katja Miller, Stefan Mangard, Georg Sigl:
DATA - Differential Address Trace Analysis: Finding Address-based Side-Channels in Binaries. USENIX Security Symposium 2018: 603-620 - [i10]Florian Unterstein, Johann Heyszl, Fabrizio De Santis, Robert Specht, Georg Sigl:
High-Resolution EM Attacks Against Leakage-Resilient PRFs Explained - And An Improved Construction. IACR Cryptol. ePrint Arch. 2018: 55 (2018) - [i9]Philipp Koppermann, Eduard Pop, Johann Heyszl, Georg Sigl:
18 Seconds to Key Exchange: Limitations of Supersingular Isogeny Diffie-Hellman on Embedded Devices. IACR Cryptol. ePrint Arch. 2018: 932 (2018) - 2017
- [j12]Martha Johanna Sepúlveda, Daniel Flórez, Vincent Immler, Guy Gogniat, Georg Sigl:
Efficient security zones implementation through hierarchical group key management at NoC-based MPSoCs. Microprocess. Microsystems 50: 164-174 (2017) - [j11]Robert Hesselbarth, Johann Heyszl, Georg Sigl:
Fast and reliable PUF response evaluation from unsettled bistable rings. Microprocess. Microsystems 52: 325-332 (2017) - [j10]Philipp Koppermann, Fabrizio De Santis, Johann Heyszl, Georg Sigl:
Low-latency X25519 hardware implementation: breaking the 100 microseconds barrier. Microprocess. Microsystems 52: 491-497 (2017) - [j9]Cezar Reinbrecht, Altamiro Amadeu Susin, Lilian Bossuet, Georg Sigl, Johanna Sepúlveda:
Timing attack on NoC-based systems: Prime+Probe attack and NoC-based protection. Microprocess. Microsystems 52: 556-565 (2017) - [c73]Lars Tebelmann, Michael Pehl, Georg Sigl:
EM Side-Channel Analysis of BCH-based Error Correction for PUF-based Key Generation. ASHES@CCS 2017: 43-52 - [c72]Nisha Jacob, Johann Heyszl, Andreas Zankl, Carsten Rolfes, Georg Sigl:
How to Break Secure Boot on FPGA SoCs Through Malicious Hardware. CHES 2017: 425-442 - [c71]Fabrizio De Santis, Andreas Schauer, Georg Sigl:
ChaCha20-Poly1305 authenticated encryption for high-speed embedded IoT applications. DATE 2017: 692-697 - [c70]Oscar M. Guillen, Thomas Pöppelmann, Jose Maria Bermudo Mera, Elena Fuentes Bongenaar, Georg Sigl, Johanna Sepúlveda:
Towards post-quantum security for IoT endpoints with NTRU. DATE 2017: 698-703 - [c69]Nisha Jacob, Carsten Rolfes, Andreas Zankl, Johann Heyszl, Georg Sigl:
Compromising FPGA SoCs using malicious hardware blocks. DATE 2017: 1122-1127 - [c68]Philipp Koppermann, Fabrizio De Santis, Johann Heyszl, Georg Sigl:
Automatic generation of high-performance modular multipliers for arbitrary mersenne primes on FPGAs. HOST 2017: 35-40 - [c67]Vincent Immler, Matthias Hiller, Johannes Obermaier, Georg Sigl:
Take a moment and have some t: Hypothesis testing on raw PUF data. HOST 2017: 128-129 - [c66]Johanna Sepúlveda, Andreas Zankl, Daniel Flórez, Georg Sigl:
Towards Protected MPSoC Communication for Information Protection against a Malicious NoC. ICCS 2017: 1103-1112 - [c65]Johanna Sepúlveda, Mathieu Gross, Andreas Zankl, Georg Sigl:
Exploiting Bus Communication to Improve Cache Attacks on Systems-on-Chips. ISVLSI 2017: 284-289 - [c64]Johanna Sepúlveda, Mathieu Gross, Andreas Zankl, Georg Sigl:
Towards trace-driven cache attacks on Systems-on-Chips - exploiting bus communication. ReCoSoC 2017: 1-7 - [c63]Johanna Sepúlveda, Ramon Fernandes, César A. M. Marcon, Daniel Florez, Georg Sigl:
A security-aware routing implementation for dynamic data protection in zone-based MPSoC. SBCCI 2017: 59-64 - [c62]Nisha Jacob, Jakob Wittmann, Johann Heyszl, Robert Hesselbarth, Florian Wilde, Michael Pehl, Georg Sigl, Kai Fischer:
Securing FPGA SoC configurations independent of their manufacturers. SoCC 2017: 114-119 - [c61]Markus Stefan Wamser, Georg Sigl:
Pushing the limits further: Sub-atomic AES. VLSI-SoC 2017: 1-6 - [c60]Markus Stefan Wamser, Georg Sigl:
Pushing the Limits Further: Sub-Atomic AES. VLSI-SoC (Selected Papers) 2017: 220-239 - [i8]Nisha Jacob, Johann Heyszl, Andreas Zankl, Carsten Rolfes, Georg Sigl:
How to Break Secure Boot on FPGA SoCs through Malicious Hardware. IACR Cryptol. ePrint Arch. 2017: 625 (2017) - [i7]Philipp Koppermann, Fabrizio De Santis, Johann Heyszl, Georg Sigl:
Fast FPGA Implementations of Diffie-Hellman on the Kummer Surface of a Genus-2 Curve. IACR Cryptol. ePrint Arch. 2017: 814 (2017) - 2016
- [j8]Manuel Huber, Benjamin Taubmann, Sascha Wessel, Hans P. Reiser, Georg Sigl:
A flexible framework for mobile device forensics based on cold boot attacks. EURASIP J. Inf. Secur. 2016: 17 (2016) - [j7]Stefan Gehrer, Georg Sigl:
Area-Efficient PUF-Based Key Generation on System-on-Chips with FPGAs. J. Circuits Syst. Comput. 25(1): 1640002:1-1640002:20 (2016) - [j6]Matthias Hiller, Meng-Day (Mandel) Yu, Georg Sigl:
Cherry-Picking Reliable PUF Bits With Differential Sequence Coding. IEEE Trans. Inf. Forensics Secur. 11(9): 2065-2076 (2016) - [c59]Fabrizio De Santis, Tobias Bauer, Georg Sigl:
Squeezing Polynomial Masking in Tower Fields - A Higher-Order Masked AES S-Box. CARDIS 2016: 192-208 - [c58]Andreas Zankl, Johann Heyszl, Georg Sigl:
Automated Detection of Instruction Cache Leaks in Modular Exponentiation Software. CARDIS 2016: 228-244 - [c57]Matthias Hiller, Aysun Gurur Önalan, Georg Sigl, Martin Bossert:
Online Reliability Testing for PUF Key Derivation. TrustED@CCS 2016: 15-22 - [c56]Fabrizio De Santis, Tobias Bauer, Georg Sigl:
Hiding Higher-Order Univariate Leakages by Shuffling Polynomial Masking Schemes: A More Efficient, Shuffled, and Higher-Order Masked AES S-box. TIS@CCS 2016: 17-26 - [c55]Oscar M. Guillen, Dawin Schmidt, Georg Sigl:
Practical evaluation of code injection in encrypted firmware updates. DATE 2016: 325-330 - [c54]Robert Hesselbarth, Georg Sigl:
Fast and Reliable PUF Response Evaluation from Unsettled Bistable Rings. DSD 2016: 82-90 - [c53]Philipp Koppermann, Fabrizio De Santis, Johann Heyszl, Georg Sigl:
X25519 Hardware Implementation for Low-Latency Applications. DSD 2016: 99-106 - [c52]Andreas Zankl, Katja Miller, Johann Heyszl, Georg Sigl:
Towards Efficient Evaluation of a Time-Driven Cache Attack on Modern Processors. ESORICS (2) 2016: 3-19 - [c51]Bodo Selmke, Johann Heyszl, Georg Sigl:
Attack on a DFA Protected AES by Simultaneous Laser Fault Injections. FDTC 2016: 36-46 - [c50]Oscar M. Guillen, Fabrizio De Santis, Ralf Brederlow, Georg Sigl:
Towards Side-Channel Secure Firmware Updates - A Minimalist Anomaly Detection Approach. FPS 2016: 345-360 - [c49]Ralph Nyberg, Johann Heyszl, Dietmar Heinz, Georg Sigl:
Enhancing Fault Emulation of Transient Faults by Separating Combinational and Sequential Fault Propagation. ACM Great Lakes Symposium on VLSI 2016: 209-214 - [c48]Vincent Immler, Maxim Hennig, Ludwig Kürzinger, Georg Sigl:
Practical Aspects of Quantization and Tamper-Sensitivity for Physically Obfuscated Keys. CS2@HiPEAC 2016: 13-18 - [c47]Michael Tempelmeier, Fabrizio De Santis, Jens-Peter Kaps, Georg Sigl:
An area-optimized serial implementation of ICEPOLE authenticated encryption schemes. HOST 2016: 49-54 - [c46]Michael Tempelmeier, Georg Sigl:
MaskVer: a tool helping designers detect flawed masking implementations. IVSW 2016: 1-6 - [c45]Johanna Sepúlveda, Daniel Florez, Ramon Fernandes, César A. M. Marcon, Guy Gogniat, Georg Sigl:
Towards risk aware NoCs for data protection in MPSoCs. ReCoSoC 2016: 1-8 - [c44]Ramon Fernandes, César A. M. Marcon, Rodrigo Cataldo, Jarbas Silveira, Georg Sigl, Martha Johanna Sepúlveda:
A security aware routing approach for NoC-based MPSoCs. SBCCI 2016: 1-6 - [c43]Cezar Reinbrecht, Altamiro Amadeu Susin, Lilian Bossuet, Georg Sigl, Martha Johanna Sepúlveda:
Side channel attack on NoC-based MPSoCs are practical: NoC Prime+Probe attack. SBCCI 2016: 1-6 - [i6]Matthias Hiller, Michael Pehl, Gerhard Kramer, Georg Sigl:
Algebraic Security Analysis of Key Generation with Physical Unclonable Functions. IACR Cryptol. ePrint Arch. 2016: 854 (2016) - 2015
- [j5]Matthias Hiller, Michael Pehl, Georg Sigl:
Fehlerkorrekturverfahren zur sicheren Schlüsselerzeugung mit Physical Unclonable Functions. Datenschutz und Datensicherheit 39(4): 229-233 (2015) - [j4]Ralph Nyberg, Johann Heyszl, Dirk Rabe, Georg Sigl:
Closing the gap between speed and configurability of multi-bit fault emulation environments for security and safety-critical designs. Microprocess. Microsystems 39(8): 1119-1129 (2015) - [c42]Benjamin Taubmann, Manuel Huber, Sascha Wessel, Lukas Heim, Hans Peter Reiser, Georg Sigl:
A Lightweight Framework for Cold Boot Based Forensics on Mobile Devices. ARES 2015: 120-128 - [c41]Sergej Proskurin, Michael Weiß, Georg Sigl:
seTPM: Towards Flexible Trusted Computing on Mobile Devices Based on GlobalPlatform Secure Elements. CARDIS 2015: 57-74 - [c40]Bodo Selmke, Stefan Brummer, Johann Heyszl, Georg Sigl:
Precise Laser Fault Injections into 90 nm and 45 nm SRAM-cells. CARDIS 2015: 193-205 - [c39]Robert Specht, Johann Heyszl, Martin Kleinsteuber, Georg Sigl:
Improving Non-profiled Attacks on Exponentiations Based on Clustering and Extracting Leakage from Multi-channel High-Resolution EM Measurements. COSADE 2015: 3-19 - [c38]Gabriel Goller, Georg Sigl:
Side Channel Attacks on Smartphones and Embedded Devices Using Standard Radio Equipment. COSADE 2015: 255-270 - [c37]Markus Stefan Wamser, Lukas Holzbaur, Georg Sigl:
A Petite and Power Saving Design for the AES S-Box. DSD 2015: 661-667 - [c36]Matthias Hiller, Ludwig Kurzinger, Georg Sigl, Sven Müelich, Sven Puchinger, Martin Bossert:
Low-Area Reed Decoding in a Generalized Concatenated Code Construction for PUFs. ISVLSI 2015: 143-148 - [c35]Stefan Gehrer, Sebastien Leger, Georg Sigl:
Aging effects on ring-oscillator-based physical unclonable functions on FPGAs. ReConFig 2015: 1-6 - [c34]Stefan Gehrer, Georg Sigl:
Using the reconfigurability of modern FPGAs for highly efficient PUF-based key generation. ReCoSoC 2015: 1-6 - [i5]Sven Puchinger, Sven Müelich, Martin Bossert, Matthias Hiller, Georg Sigl:
On Error Correction for Physical Unclonable Functions. CoRR abs/1501.06698 (2015) - 2014
- [j3]Nisha Jacob, Dominik Merli, Johann Heyszl, Georg Sigl:
Hardware Trojans: current challenges and approaches. IET Comput. Digit. Tech. 8(6): 264-273 (2014) - [c33]Oscar M. Guillen, Ralf Brederlow, Ralph Ledwa, Georg Sigl:
Risk management in embedded devices using metering applications as example. WESS 2014: 6:1-6:9 - [c32]Matthias Hiller, Georg Sigl:
Increasing the efficiency of syndrome coding for PUFs with helper data compression. DATE 2014: 1-6 - [c31]Ralph Nyberg, Jürgen Nolles, Johann Heyszl, Dirk Rabe, Georg Sigl:
Closing the Gap between Speed and Configurability of Multi-bit Fault Emulation Environments for Security and Safety-Critical Designs. DSD 2014: 114-121 - [c30]Matthias Hiller, Leandro Rodrigues Lima, Georg Sigl:
Seesaw: An Area-Optimized FPGA Viterbi Decoder for PUFs. DSD 2014: 387-393 - [c29]Kevin Mueller, Georg Sigl, Benoit Triquet, Michael Paulitsch:
On MILS I/O Sharing Targeting Avionic Systems. EDCC 2014: 182-193 - [c28]Michael Weiß, Benjamin Weggenmann, Moritz August, Georg Sigl:
On Cache Timing Attacks Considering Multi-core Aspects in Virtualized Embedded Systems. INTRUST 2014: 151-167 - [c27]Robert Specht, Johann Heyszl, Georg Sigl:
Investigating measurement methods for high-resolution electromagnetic field side-channel analysis. ISIC 2014: 21-24 - [c26]Stefan Gehrer, Georg Sigl:
Reconfigurable PUFs for FPGA-based SoCs. ISIC 2014: 140-143 - [c25]Fabrizio De Santis, Oscar M. Guillen, Ermin Sakic, Georg Sigl:
Ciphertext-Only Fault Attacks on PRESENT. LightSec 2014: 85-108 - [c24]Michael Weiner, Salvador Manich, Georg Sigl:
A Low Area Probing Detector for Power Efficient Security ICs. RFIDSec 2014: 185-197 - [i4]Sven Müelich, Sven Puchinger, Martin Bossert, Matthias Hiller, Georg Sigl:
Error Correction for Physical Unclonable Functions Using Generalized Concatenated Codes. CoRR abs/1407.8034 (2014) - 2013
- [c23]Dominik Merli, Georg Sigl, Claudia Eckert:
Identities for Embedded Systems Enabled by Physical Unclonable Functions. Number Theory and Cryptography 2013: 125-138 - [c22]Johann Heyszl, Andreas Ibing, Stefan Mangard, Fabrizio De Santis, Georg Sigl:
Clustering Algorithms for Non-profiled Single-Execution Attacks on Exponentiations. CARDIS 2013: 79-93 - [c21]Matthias Hiller, Michael Weiner, Leandro Rodrigues Lima, Maximilian Birkner, Georg Sigl:
Breaking through fixed PUF block limitations with differential sequence coding and convolutional codes. TrustED@CCS 2013: 43-54 - [c20]Nikolaus Theißing, Dominik Merli, Michael Smola, Frederic Stumpf, Georg Sigl:
Comprehensive analysis of software countermeasures against fault attacks. DATE 2013: 404-409 - [c19]Dominik Merli, Johann Heyszl, Benedikt Heinz, Dieter Schuster, Frederic Stumpf, Georg Sigl:
Localized electromagnetic analysis of RO PUFs. HOST 2013: 19-24 - [c18]Fabrizio De Santis, Michael Kasper, Stefan Mangard, Georg Sigl, Oliver Stein, Marc Stöttinger:
On the Relationship between Correlation Power Analysis and the Stochastic Approach: An ASIC Designer Perspective. INDOCRYPT 2013: 215-226 - [c17]Salvador Manich, Markus S. Wamser, Oscar M. Guillen, Georg Sigl:
Differential scan-path: A novel solution for secure design-for-testability. ITC 2013: 1-9 - [c16]Matthias Hiller, Georg Sigl, Michael Pehl:
A new model for estimating bit error probabilities of Ring-Oscillator PUFs. ReCoSoC 2013: 1-8 - [i3]Dominik Merli, Frederic Stumpf, Georg Sigl:
Protecting PUF Error Correction by Codeword Masking. IACR Cryptol. ePrint Arch. 2013: 334 (2013) - [i2]Johann Heyszl, Andreas Ibing, Stefan Mangard, Fabrizio De Santis, Georg Sigl:
Clustering Algorithms for Non-Profiled Single-Execution Attacks on Exponentiations. IACR Cryptol. ePrint Arch. 2013: 438 (2013) - 2012
- [j2]Dominik Merli, Georg Sigl:
Physical Unclonable Functions. Datenschutz und Datensicherheit 36(12): 876-880 (2012) - [c15]Matthias Hiller, Fabrizio De Santis, Dominik Merli, Georg Sigl:
Reliability bound and channel capacity of IBS-based fuzzy embedders. AHS 2012: 213-220 - [c14]Johann Heyszl, Dominik Merli, Benedikt Heinz, Fabrizio De Santis, Georg Sigl:
Strengths and Limitations of High-Resolution Electromagnetic Field Measurements for Side-Channel Analysis. CARDIS 2012: 248-262 - [c13]Johann Heyszl, Stefan Mangard, Benedikt Heinz, Frederic Stumpf, Georg Sigl:
Localized Electromagnetic Analysis of Cryptographic Implementations. CT-RSA 2012: 231-244 - [c12]Matthias Hiller, Dominik Merli, Frederic Stumpf, Georg Sigl:
Complementary IBS: Application specific error correction for PUFs. HOST 2012: 1-6 - [c11]Salvador Manich, Markus S. Wamser, Georg Sigl:
Detection of probing attempts in secure ICs. HOST 2012: 134-139 - 2011
- [c10]Angelika Janning, Johann Heyszl, Frederic Stumpf, Georg Sigl:
A Cost-Effective FPGA-based Fault Simulation Environment. FDTC 2011: 21-31 - [c9]Georg Sigl:
Keynote address: Design of secure systems - Where are the EDA tools? ICCAD 2011: 1 - [c8]Dominik Merli, Dieter Schuster, Frederic Stumpf, Georg Sigl:
Side-Channel Analysis of PUFs and Fuzzy Extractors. TRUST 2011: 33-47
1990 – 1999
- 1992
- [b1]Georg Sigl:
Plazierung der Zellen bei der Layoutsynthese mittels Partitionierung und quadratischer Optimierung. Technical University Munich, Germany, 1992, pp. 1-119 - [c7]Henning Spruth, Georg Sigl:
Parallel algorithms for slicing based final placement. EURO-DAC 1992: 40-45 - [c6]Konrad Doll, Frank M. Johannes, Georg Sigl:
Accurate net models for placement improvement by network flow methods. ICCAD 1992: 594-597 - [i1]Henning Spruth, Georg Sigl, Frank Johannes:
Parallel algorithms for slicing based final placement. Forschungsberichte, TU Munich TUM I 9209: 1-14 (1992) - 1991
- [j1]Jürgen M. Kleinhans, Georg Sigl, Frank M. Johannes, Kurt Antreich:
GORDIAN: VLSI placement by quadratic programming and slicing optimization. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 10(3): 356-365 (1991) - [c5]Georg Sigl, Konrad Doll, Frank M. Johannes:
Analytical Placement: A Linear or a Quadratic Objective Function? DAC 1991: 427-432 - [c4]Georg Sigl, Ulf Schlichtmann:
Goal oriented slicing enumeration through shape function clipping. EURO-DAC 1991: 361-365 - [c3]Edgar Auer, Werner L. Schiele, Georg Sigl:
A New Linear Placement Algorithm for Cell Generation. ICCAD 1991: 486-489 - [c2]Konrad Doll, Frank M. Johannes, Georg Sigl:
DOMINO: Deterministic Placement Improvement with Hill-Climbing Capabilities. VLSI 1991: 91-100
1980 – 1989
- 1988
- [c1]Jürgen M. Kleinhans, Georg Sigl, Frank M. Johannes:
GORDIAN: a new global optimization/rectangle dissection method for cell placement. ICCAD 1988: 506-509
Coauthor Index
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