The Design of Rijndael: AES - The Advanced Encryption Standard: Information Security and Cryptography
Autor Joan Daemen, Vincent Rijmenen Limba Engleză Hardback – 14 feb 2002
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Specificații
ISBN-13: 9783540425809
ISBN-10: 3540425802
Pagini: 260
Ilustrații: XVII, 238 p.
Dimensiuni: 155 x 235 x 19 mm
Greutate: 0.49 kg
Ediția:2002
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Information Security and Cryptography
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 3540425802
Pagini: 260
Ilustrații: XVII, 238 p.
Dimensiuni: 155 x 235 x 19 mm
Greutate: 0.49 kg
Ediția:2002
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Information Security and Cryptography
Locul publicării:Berlin, Heidelberg, Germany
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Public țintă
Professional/practitionerCuprins
1. The Advanced Encryption Standard Process.- 2. Preliminaries.- 3. Specification of Rijndael.- 4. Implementation Aspects.- 5. Design Philosophy.- 6. The Data Encryption Standard.- 7. Correlation Matrices.- 8. Difference Propagation.- 9. The Wide Trail Strategy.- 10. Cryptanalysis.- 11. Related Block Ciphers.- Appendices.- A. Propagation Analysis in Galois Fields.- A.1.1 Difference Propagation.- A.l.2 Correlation.- A. 1.4 Functions that are Linear over GF(2).- A.2.1 Difference Propagation.- A.2.2 Correlation.- A.2.4 Functions that are Linear over GF(2).- A.3.3 Dual Bases.- A.4.2 Relationship Between Trace Patterns and Selection Patterns.- A.4.4 Illustration.- A.5 Rijndael-GF.- B. Trail Clustering.- B.1 Transformations with Maximum Branch Number.- B.2 Bounds for Two Rounds.- B.2.1 Difference Propagation.- B.2.2 Correlation.- B.3 Bounds for Four Rounds.- B.4 Two Case Studies.- B.4.1 Differential Trails.- B.4.2 Linear Trails.- C. Substitution Tables.- C.1 SRD.- C.2 Other Tables.- C.2.1 xtime.- C.2.2 Round Constants.- D. Test Vectors.- D.1 KeyExpansion.- D.2 Rijndael(128,128).- D.3 Other Block Lengths and Key Lengths.- E. Reference Code.
Recenzii
"…an excellent choice for people who are interested in how Rijndael really works and who need more explanations than research papers usually contain. It is a book that readers will regularly consult when they need to look up details about Rijndael." –Computing Reviews
Textul de pe ultima copertă
In October 2000, the US National Institute of Standards and Technology selected the block cipher Rijndael as the Advanced Encryption Standard (AES). AES is expected to gradually replace the present Data Encryption Standard (DES) as the most widely applied data encryption technology.
This book by the designers of the block cipher presents Rijndael from scratch. The underlying mathematics and the wide trail strategy as the basic design idea are explained in detail and the basics of differential and linear cryptanalysis are reworked. Subsequent chapters review all known attacks against the Rijndael structure and deal with implementation and optimization issues. Finally, other ciphers related to Rijndael are presented.
This volume is THE authoritative guide to the Rijndael algorithm and AES. Professionals, researchers, and students active or interested in data encryption will find it a valuable source of information and reference.
This book by the designers of the block cipher presents Rijndael from scratch. The underlying mathematics and the wide trail strategy as the basic design idea are explained in detail and the basics of differential and linear cryptanalysis are reworked. Subsequent chapters review all known attacks against the Rijndael structure and deal with implementation and optimization issues. Finally, other ciphers related to Rijndael are presented.
This volume is THE authoritative guide to the Rijndael algorithm and AES. Professionals, researchers, and students active or interested in data encryption will find it a valuable source of information and reference.
Caracteristici
This book is THE guide to the new Advanced Encryption Standard Written by its designers First book in the new Springer series Information Security and Cryptography, further information at http://www.springer.de/comp/series/is&c.html Includes supplementary material: sn.pub/extras
Descriere
Descriere de la o altă ediție sau format:
Rijndael was the surprise winner of the contest for the new Advanced En cryption Standard (AES) for the United States. This contest was organized and run by the National Institute for Standards and Technology (NIST) be ginning in January 1997; Rijndael was announced as the winner in October 2000. It was the "surprise winner" because many observers (and even some participants) expressed scepticism that the D.S. government would adopt as an encryption standard any algorithm that was not designed by D.S. citizens. Yet NIST ran an open, international, selection process that should serve as model for other standards organizations. For example, NIST held their 1999 AES meeting in Rome, Italy. The five finalist algorithms were designed by teams from all over the world. In the end, the elegance, efficiency, security, and principled design of Rijndael won the day for its two Belgian designers, Joan Daemen and Vincent Rijmen, over the competing finalist designs from RSA, IBM, Counterpane Systems, and an EnglishjIsraelijDanish team. This book is the story of the design of Rijndael, as told by the designers themselves. It outlines the foundations of Rijndael in relation to the previous ciphers the authors have designed. It explains the mathematics needed to and the operation of Rijndael, and it provides reference C code and underst test vectors for the cipher.
Rijndael was the surprise winner of the contest for the new Advanced En cryption Standard (AES) for the United States. This contest was organized and run by the National Institute for Standards and Technology (NIST) be ginning in January 1997; Rijndael was announced as the winner in October 2000. It was the "surprise winner" because many observers (and even some participants) expressed scepticism that the D.S. government would adopt as an encryption standard any algorithm that was not designed by D.S. citizens. Yet NIST ran an open, international, selection process that should serve as model for other standards organizations. For example, NIST held their 1999 AES meeting in Rome, Italy. The five finalist algorithms were designed by teams from all over the world. In the end, the elegance, efficiency, security, and principled design of Rijndael won the day for its two Belgian designers, Joan Daemen and Vincent Rijmen, over the competing finalist designs from RSA, IBM, Counterpane Systems, and an EnglishjIsraelijDanish team. This book is the story of the design of Rijndael, as told by the designers themselves. It outlines the foundations of Rijndael in relation to the previous ciphers the authors have designed. It explains the mathematics needed to and the operation of Rijndael, and it provides reference C code and underst test vectors for the cipher.
Notă biografică
After graduating in electromechanical engineering Joan Daemen was awarded his PhD in 1995 from KU Leuven. After his contract ended at COSIC, he privately continued his crypto research and contacted Vincent Rijmen to continue their collaboration that would lead to the Rijndael block cipher, and this was selected by NIST as the new Advanced Encryption Standard in 2000. After over 20 years of security industry experience, including work as a security architect and cryptographer for STMicroelectronics, he is now a professor in the Digital Security Group at Radboud University Nijmegen. He codesigned the Keccak cryptographic hash which was selected as the SHA-3 hash standard by NIST in 2012 and is one of the founders of the permutation-based cryptography movement. In 2017 he won the Levchin Prize for Real World Cryptography "for the development of AES and SHA3". In 2018 he was awarded an ERC advanced grant for research on the foundations of security in symmetric cryptography.
After graduating in electronics engineering, Vincent Rijmen was awarded his PhD in 1997 from KU Leuven. Researching there in the ESAT/COSIC lab he developed the Rijndael algorithm with Joan Daemen, and this was selected by NIST as the new Advanced Encryption Standard in 2000. After work in the security industry, as chief cryptographer at Cryptomathic, he was first a professor at Technische Universität Graz and now in the COSIC Lab in Leuven. He is also an adjunct professor at the Selmer Center (University of Bergen). In 2019, he was named a Fellow of the International Association for Cryptologic Research for "co-designing AES, contributions to the design and cryptanalysis of symmetric primitives, and service to the IACR". His research interests include symmetric cryptography and cryptanalysis, side-channel attacks, and mathematical theories for the design of symmetric cryptography primitives.
After graduating in electronics engineering, Vincent Rijmen was awarded his PhD in 1997 from KU Leuven. Researching there in the ESAT/COSIC lab he developed the Rijndael algorithm with Joan Daemen, and this was selected by NIST as the new Advanced Encryption Standard in 2000. After work in the security industry, as chief cryptographer at Cryptomathic, he was first a professor at Technische Universität Graz and now in the COSIC Lab in Leuven. He is also an adjunct professor at the Selmer Center (University of Bergen). In 2019, he was named a Fellow of the International Association for Cryptologic Research for "co-designing AES, contributions to the design and cryptanalysis of symmetric primitives, and service to the IACR". His research interests include symmetric cryptography and cryptanalysis, side-channel attacks, and mathematical theories for the design of symmetric cryptography primitives.