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Data-driven Block Ciphers for Fast Telecommunication Systems

Nikolai Moldovyan | Alexander A. Moldovyan
€74.99
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A01=Alexander A. Moldovyan
A01=Nikolai Moldovyan
Active Bits
Active Layer
ASIC Implementation
Author_Alexander A. Moldovyan
Author_Nikolai Moldovyan
Block Cipher
Caesar's Cipher
Category=URY
Ciphertext Block
controlled bit permutation
cryptographic
cryptographic hardware design
Cryptographic Primitive
Data Block
Elementary Encryption
encryption
Encryption Algorithms
Encryption Rounds
eq_bestseller
eq_computing
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
fast data-driven cipher architectures
FPGA Device
FPGA Implementation
Hash Function
input
Input Data Block
key
mobile network protocols
Mutually Inverse
permutation networks
Plaintext Block
primitive
Q1 Q4 Q3 Q3 Q4
Recursive Construction
round
Round Key
Round Transformation
rounds
schedule
secret
Secret Key
Stream Ciphers
Switching Elements
Symmetric Topologies
telecommunication security
transformation
wireless encryption

Product details

  • ISBN 9780367387983
  • Weight: 453g
  • Dimensions: 156 x 234mm
  • Publication Date: 19 Sep 2019
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

The Most Progressive and Complete Guide to DDO-Based Ciphers

Developers have long recognized that ciphers based on Permutation Networks (PNs) and Controlled Substitution-Permutation Networks (CSPNs) allow for the implementation of a variety of Data Driven Operations (DDOs). These DDOs can provide fast encryption without incurring excessive hardware costs in modern telecommunication networks. However, until now, with a few exceptions, most DDO-based ciphers have been poorly represented in available literature and have continued to remain known to only a small number of encryption experts.

In Data-Driven Block Ciphers for Fast Telecommunication Systems, Nikolai Moldovyan and Alexander Moldovyan, major innovators and holders of several dozen international patents in encryption technology, provide the background and detail the applications needed to investigate new properties of PNs especially relevant to the improvement of modern wireless systems.Furthermore, they propose a universal architecture involving controlled bit permutation instruction that will permit the performance of both data-driven permutations and an arbitrary prescribed fixed permutation in a single cycle.

Immediately improved efficiency for current and future fast telecommunication systems and mobile networks

Because of its simplicity and efficient use of current hardware, the embedding of this architecture is a highly attractive option for CPU manufacturers.By detailing all the relevant information into a single volume for the first time, the authors of this book make that option more feasible than ever before.
About Alexander A. Moldovyan | Nikolai Moldovyan
Moldovyan, Nikolai; Moldovyan, Alexander A.

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