Fast software encryption : Cambridge Security Workshop, Cambridge, U.K., December 9-11, 1993 : proceedings /
Gardado en:
| Autor Corporativo: | |
|---|---|
| Outros autores: | |
| Formato: | Conference Proceeding Libro |
| Idioma: | English |
| Publicado: |
Berlin ; New York :
Springer-Verlag,
c1994.
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| Series: | Lecture notes in computer science ;
809. |
| Subjects: |
Table of Contents:
- SAFER K-64: A Byte-Oriented Block-Ciphering Algorithm / James Massey
- A New Approach To Block Cipher Design / Joan Daemen, Rene Govaerts and Joos Vandewalle
- Fast Block Cipher Proposal / Burt Kaliski and Matt Robshaw
- Fish: A Fast Software Stream Cipher / Uwe Blocher and Markus Dichtl
- The Shrinking Generator: Some Practical Considerations / Hugo Krawczyk
- A Modern Rotor Machine / Ross Anderson
- Two Stream Ciphers / Bill Chambers
- A Software-Optimised Encryption Algorithm / Phillip Rogaway and Don Coppersmith
- Encrypting Network Traffic / Mark Lomas
- Design Principles for Dedicated Hash Functions / Bart Preneel
- Performance of Symmetric Ciphers and One-Way Hash Functions / Mike Roe
- On the Security of Shift Register Based Keystream Generators / Jovan Golic
- The Differential Cryptanalysis and Design of Natural Stream Ciphers / Cunsheng Ding
- On Modes of Operation / Eli Biham
- Cryptanalysis of Clock Controlled Shift Registers / Dieter Gollmann.
- A Bulk Data Encryption Algorithm / David Wheeler
- On Finite Automaton One-Key Cryptosystems / Renji Tao
- Parallel FFT-Hashing / Claus Schnorr and Serge Vaudenay
- Attacks on Double Block Length Hash Functions / Xuejia Lai and Lars Knudsen
- On Quadratic M-Sequences / Agnes Chan, Richard Games and Joseph Rushanan
- 2-Adic Shift Registers / Andrew Klapper and Mark Goresky
- New Bent Mappings Suitable for Fast Implementation / Kaisa Nyberg
- Cryptographic Pseudorandom Numbers in Simulation / Nick MacLaren
- Description of a New Variable-Length Key, 64-bit Block Cipher (Blowfish) / Bruce Schneier
- VINO: A Block Cipher Including Variable Permutations / Adina Di Porto and William Wolfowicz
- Practically Secure Feistel Ciphers / Lars Knudsen.