2006 |
23 | EE | Daniel Mesquita,
Benoît Badrignans,
Lionel Torres,
Gilles Sassatelli,
Michel Robert,
Jean-Claude Bajard,
Fernando Gehm Moraes:
A Leak Resistant Architecture Against Side Channel Attacks.
FPL 2006: 1-4 |
22 | | Benoît Badrignans,
Daniel Mesquita,
Jean-Claude Bajard,
Lionel Torres,
Gilles Sassatelli,
Michel Robert:
A Parallel and Secure Architecture for Asymmetric Cryptography.
ReCoSoC 2006: 220-224 |
21 | EE | Jean-Claude Bajard,
Laurent Imbert,
Christophe Nègre:
Arithmetic Operations in Finite Fields of Medium Prime Characteristic Using the Lagrange Representation.
IEEE Trans. Computers 55(9): 1167-1177 (2006) |
2005 |
20 | EE | Jean-Claude Bajard,
Laurent Imbert,
Graham A. Jullien:
Parallel Montgomery Multiplication in GF(2k) Using Trinomial Residue Arithmetic.
IEEE Symposium on Computer Arithmetic 2005: 164-171 |
19 | EE | Jean-Claude Bajard,
Laurent Imbert,
Thomas Plantard:
Arithmetic Operations in the Polynomial Modular Number System.
IEEE Symposium on Computer Arithmetic 2005: 206-213 |
2004 |
18 | EE | Jean-Claude Bajard,
Laurent Imbert,
Pierre-Yvan Liardet,
Yannick Teglia:
Leak Resistant Arithmetic.
CHES 2004: 62-75 |
17 | EE | Jean-Claude Bajard,
Laurent Imbert,
Thomas Plantard:
Modular Number Systems: Beyond the Mersenne Family.
Selected Areas in Cryptography 2004: 159-169 |
16 | EE | Jean-Claude Bajard,
Laurent Imbert:
A Full RNS Implementation of RSA.
IEEE Trans. Computers 53(6): 769-774 (2004) |
2003 |
15 | EE | Jean-Claude Bajard,
Laurent Imbert,
Christophe Nègre,
Thomas Plantard:
Efficient Multiplication in GF(pk) for Elliptic Curve Cryptography.
IEEE Symposium on Computer Arithmetic 2003: 181-187 |
14 | | Peter Kornerup,
Jean-Claude Bajard,
Christiane Frougny,
Jean-Michel Muller:
Preface.
Theor. Comput. Sci. 291(2): 133-134 (2003) |
2002 |
13 | EE | Jean-Claude Bajard,
Laurent Imbert,
Christophe Nègre:
Modular Multiplication in GF(pk) Using Lagrange Representation.
INDOCRYPT 2002: 275-284 |
2001 |
12 | EE | Jean-Claude Bajard,
Laurent-Stéphane Didier,
Peter Kornerup:
Modular Multiplication and Base Extensions in Residue Number Systems.
IEEE Symposium on Computer Arithmetic 2001: 59-65 |
1999 |
11 | EE | Jean-Claude Bajard,
Christiane Frougny,
Jean-Michel Muller:
Foreword: Real Numbers and Computers.
Theor. Comput. Sci. 210(1): 1-2 (1999) |
1998 |
10 | | Jean-Claude Bajard,
Laurent-Stéphane Didier,
Peter Kornerup:
An RNS Montgomery Modular Multiplication Algorithm.
IEEE Trans. Computers 47(7): 766-776 (1998) |
9 | EE | Jean-Claude Bajard,
Laurent-Stéphane Didier,
Jean-Michel Muller:
A New Euclidean Division Algorithm for Residue Number Systems.
VLSI Signal Processing 19(2): 167-178 (1998) |
1997 |
8 | EE | Jean-Claude Bajard,
Laurent-Stéphane Didier,
Peter Kornerup:
An IWS Montgomery Modular Multiplication Algorithm.
IEEE Symposium on Computer Arithmetic 1997: 234-239 |
1996 |
7 | EE | Jean-Claude Bajard,
Laurent-Stéphane Didier,
Jean-Michel Muller:
A New Euclidean Division Algorithm For Residue Number Systems.
ASAP 1996: 45-54 |
6 | | Jean-Claude Bajard,
Christiane Frougny,
Jean-Michel Muller,
Gilles Villard:
Forword to the Special Issue on Real Numbers and Computers.
Theor. Comput. Sci. 162(1): 1-3 (1996) |
1995 |
5 | EE | Jean-Claude Bajard,
Dominique Michelucci,
Jean-Michel Moreau,
Jean-Michel Muller:
Introduction to the Special Issue: "Real Numbers and Computers".
J. UCS 1(7): 436-438 (1995) |
1994 |
4 | | Jean-Claude Bajard,
Sylvanus Kla,
Jean-Michel Muller:
BKM: A New Hardware Algorithm for Complex Elementary Functions.
IEEE Trans. Computers 43(8): 955-963 (1994) |
3 | | Jean-Claude Bajard,
Jean Duprat,
Sylvanus Kla,
Jean-Michel Muller:
Some Operators for On-Line Radix-2 Computations.
J. Parallel Distrib. Comput. 22(2): 336-345 (1994) |
1993 |
2 | EE | Jean-Claude Bajard,
Sylvanus Kla,
Jean-Michel Muller:
BKM: A new hardware algorithm for complex elementary functions.
IEEE Symposium on Computer Arithmetic 1993: 146-153 |
1 | | Ali Skaf,
Jean-Claude Bajard,
Alain Guyot,
Jean-Michel Muller:
A VLSI circuit for on-line polynominal computing: Application to exponential, trigonometric and hyperbolic functions.
VLSI 1993: 93-100 |