Difference between revisions of "QTESLA"

From PQC WIKI
en>Admin
 
m (1 revision imported)
 

Latest revision as of 23:34, 12 May 2021

Information

Authors

  • Sedat Akleylek, Ondokuz Mayis University, Turkey
  • Erdem Alkim, Ondokuz Mayis University, Turkey and Fraunhofer SIT, Germany
  • Paulo S. L. M. Barreto, University of Washington Tacoma, USA
  • Nina Bindel, University of Waterloo, Canada
  • Johannes Buchmann, Technische Universität Darmstadt, Germany
  • Edward Eaton, ISARA Corporation and University of Waterloo, Canada
  • Gus Gutoski, ISARA Corporation, Canada
  • Juliane Krämer, Technische Universität Darmstadt, Germany
  • Patrick Longa, Microsoft Research, USA
  • Harun Polat, Technische Universität Darmstadt, Germany
  • Jefferson E. Ricardini, LG Electronics, USA
  • Gustavo Zanon, University of São Paulo, Brazil

Official Links

Related Articles

Parameterized Hardware Accelerators for Lattice-Based Cryptography and Their Application to the HW/SW Co-Design of qTESLA
Wen Wang and Shanquan Tian and Bernhard Jungk and Nina Bindel and Patrick Longa and Jakub Szefer.
Cryptology ePrint Archive: Report 2020/054, 17 Jan 2020.

Exploiting Determinism in Lattice-based Signatures - Practical Fault Attacks on pqm4 Implementations of NIST candidates
Prasanna Ravi and Mahabir Prasad Jhanwar and James Howe and Anupam Chattopadhyay and Shivam Bhasin.
AsiaCCS-2019, 1 Jul 2019.

On Security of Fiat-Shamir Signatures over Lattice in the Presence of Randomness Leakage
Yuejun Liu and Yongbin Zhou and Shuo Sun and Tianyu Wang and Rui Zhang.
Cryptology ePrint Archive: Report 2019/715, 17 Jun 2019.

An Efficient and Provable Masked Implementation of qTESLA
François Gérard and Mélissa Rossi.
CARDIS 2019, 2019.

The Lattice-Based Digital Signature Scheme qTESLA
Erdem Alkim and Paulo S. L. M. Barreto and Nina Bindel and Juliane Kramer and Patrick Longa and Jefferson E. Ricardini.
Cryptology ePrint Archive: Report 2019/085, 2019.


Summary Tables

QTESLA - ROUND 1

Description lattice

RLWE

Assumption RLWE
Functionality Signature
Public Key (bytes)
  • level 1: 2976
  • level 3: 6176
  • level 5: 6432
Secret Key (bytes)
  • level 1: 1856
  • level 3: 4160
  • level 5: 4128
CIPH/SIG (bytes)
  • level 1: 2720
  • level 3: 5664
  • level 5: 5920
Security

Type

EUF-CMA

qTESLA - Round 2

qTESLA-Heuristic

(withdrawn)

qTESLA-Provably Secure
Description Lattice

RLWE

Assumption RLWE
Functionality Signature
Public Key

(bytes)

  • level 1: 1504
  • level 2: 2336
  • level 3: 3104
  • level 5: 6432
  • level 5: 5024
  • level 1: 14880
  • level 3: 38432
Secret Key

(bytes)

  • level 1: 1216
  • level 2: 1600
  • level 3: 2368
  • level 5: 4672
  • level 5: 3520
  • level 1: 5184
  • level 3: 12352
CIPH/SIG

(bytes)

  • level 1: 1376
  • level 2: 2144
  • level 3: 2848
  • level 5: 5920
  • level 5: 4640
  • level 1: 2592
  • level 3: 5664
Security

Type

EUF-CMA