Transactions on Cryptographic Hardware and Embedded Systems 2021
TCHES 2021 Artifacts
Scope and Aims
The two main goals of the TCHES 2021 artifact review process were to improve functionality and reusability of artifacts to enable reproducibility and extension by the scientific community.
Reproducibility, in the context of computational experiments, means that the scientific results claimed can be obtained by a different team using the original authors’ artifacts. The artifact review process for TCHES 2021 did not include attempting to reproduce the experiment and verify the scientific claims in the accepted paper. Rather, the artifact review process for TCHES 2021 aimed at ensuring sufficient functionality of the artifact to enable a research team to attempt to reproduce the results. The artifact review process for TCHES 2021 also aimed to improve reusability, meaning that the artifacts are not just functional, but of sufficient quality that they could be extended and reused by others.
For more information, please see the TCHES 2021 Call for Artifacts and the report of the artifact review chair.
Volume 2021, Issue 1
Compact Dilithium Implementations on Cortex-M3 and Cortex-M4
Denisa O. C. Greconici, Matthias J. Kannwischer, Daan Sprenkels
Fill your Boots: Enhanced Embedded Bootloader Exploits via Fault Injection and Binary Analysis
Jan Van den Herrewegen, David Oswald, Flavio D. Garcia, Qais Temeiza
The design of scalar AES Instruction Set Extensions for RISC-V
Ben Marshall, G. Richard Newell, Dan Page, Markku-Juhani O. Saarinen, Claire Wolf
Polynomial Multiplication in NTRU Prime: Comparison of Optimization Strategies on Cortex-M4
Erdem Alkim, Dean Yun-Li Cheng, Chi-Ming Marvin Chung, Hülya Evkan, Leo Wei-Lun Huang, Vincent Hwang, Ching-Lin Trista Li, Ruben Niederhagen, Cheng-Jhih Shih, Julian Wälde, Bo-Yin Yang
The Area-Latency Symbiosis: Towards Improved Serial Encryption Circuits
Fatih Balli, Andrea Caforio, Subhadeep Banik
Fixslicing AES-like ciphers: New bitsliced AES speed records on ARM-Cortex M and RISC-V
Alexandre Adomnicai, Thomas Peyrin
Volume 2021, Issue 2
NTT Multiplication for NTT-unfriendly Rings: New Speed Records for Saber and NTRU on Cortex-M4 and AVX2
Chi-Ming Marvin Chung, Vincent Hwang, Matthias J. Kannwischer, Gregor Seiler, Cheng-Jhih Shih, Bo-Yin Yang
Masking in Fine-Grained Leakage Models: Construction, Implementation and Verification
Gilles Barthe, Marc Gourjon, Benjamin Grégoire, Maximilian Orlt, Clara Paglialonga, Lars Porth
Fault Attacks on CCA-secure Lattice KEMs
Peter Pessl, Lukas Prokop
Time-Memory Analysis of Parallel Collision Search Algorithms
Monika Trimoska, Sorina Ionica, Gilles Dequen
Volume 2021, Issue 3
Online Template Attacks: Revisited: PoC: emulated single-trace attack on wolfSSL scalar multiplication
Alejandro Cabrera Aldaya, Billy Bob Brumley
Optimizing BIKE for the Intel Haswell and ARM Cortex-M4
Ming-Shing Chen, Tung Chou, Markus Krausz
Breaking Masked Implementations with Many Shares on 32-bit Software Platforms: or When the Security Order Does Not Matter
Olivier Bronchain, François-Xavier Standaert
Breaking CAS-Lock and Its Variants by Exploiting Structural Traces
Abhrajit Sengupta, Nimisha Limaye, Ozgur Sinanoglu
Volume 2021, Issue 4
ROTed: Random Oblivious Transfer for embedded devices
P. Branco, L. Fiolhais, M. Goulão, P. Martins, P. Mateus, L. Sousa
FIVER – Robust Verification of Countermeasures against Fault Injections
Jan Richter-Brockmann, Aein Rezaei Shahmirzadi, Pascal Sasdrich, Amir Moradi, Tim Güneysu
Side-Channel Protections for Picnic Signatures
Diego F. Aranha, Sebastian Berndt, Thomas Eisenbarth, Okan Seker, Akira Takahashi, Luca Wilke, Greg Zaverucha
Rainbow on Cortex-M4
Tung Chou, Matthias J. Kannwischer, Bo-Yin Yang
Higher-Order Lookup Table Masking in Essentially Constant Memory
Annapurna Valiveti, Srinivas Vivek
CTIDH: faster constant-time CSIDH
Gustavo Banegas, Daniel J. Bernstein, Fabio Campos, Tung Chou, Tanja Lange, Michael Meyer, Benjamin Smith, Jana Sotáková
TCHES 2021 Artifact Review Committee
Artifact Review Chair:
- Douglas Stebila, University of Waterloo
Artifact Review Committee Members:
- Andreas Abel, Saarland University
- Martin R. Albrecht, Royal Holloway, University of London
- Alejandro Cabrera Aldaya, Tampere University
- Erdem Alkim, Ondokuz Mayis University
- Estuardo Alpirez Bock, Aalto University
- Pedro G. M. R. Alves, University of Campinas
- Gustavo Banegas, Chalmers University of Technology
- Shivam Bhasin, Temasek Labs, Nanyang Technological University
- Cecylia Bocovich, Tor Project
- Joppe Bos, NXP Semiconductors
- Olivier Bronchain, UCLouvain
- Lauren De Meyer, Rambus
- Cesar Pereida Garcia, Tampere University
- François Gérard, University of Luxembourg
- Sohaib ul Hassan, Tampere University
- James Howe, PQShield
- Jan Jancar, Masaryk University
- Natalia Kulatova, Inria Paris and ENS Ulm
- Kris Kwiatkowski, PQShield
- Norman Lahr, Fraunhofer SIT
- Ben Marshall, University of Bristol
- Guilherme Perin, Delft University of Technology
- Richard Petri, Fraunhofer SIT
- Duy-Phuc Pham, Inria, CNRS, IRISA
- Robert Primas, Graz University of Technology
- Joost Renes, NXP Semiconductors
- Raghvendra Rohit, University of Rennes, CNRS, IRISA
- Pranesh Santikellur, Indian Institute of Technology, Kharagpur
- Nigel Smart, KU Leuven
- Akira Takahashi, Aarhus University
- Pepe Vila, Arm
- Junwei Wang, CryptoExperts
- Lennert Wouters, KU Leuven
External reviewers:
- Kartik Nayak, Università della Svizzera italiana
- Francesco Regazzoni, Universiteit van Amsterdam
- Devanshi Upadhyaya, Universität Stuttgart