WARP: revisiting GFN for lightweight 128-bit block cipher
From MaRDI portal
Publication:832383
DOI10.1007/978-3-030-81652-0_21zbMath1485.94052OpenAlexW3184593118MaRDI QIDQ832383
Kazuhiko Minematsu, Takanori Isobe, Maki Shigeri, Kosei Sakamoto, Subhadeep Banik, Zhenzhen Bao, Nao Shibata, Hiroyasu Kubo, Fukang Liu
Publication date: 25 March 2022
Full work available at URL: https://doi.org/10.1007/978-3-030-81652-0_21
lightweight block cipher128-bit block ciphergeneralized Feistel networkunified decryptionunified encryption
Related Items (4)
MILP based differential attack on round reduced WARP ⋮ Meet-in-the-middle attack with splice-and-cut technique and a general automatic framework ⋮ New algorithm for exhausting optimal permutations for generalized Feistel networks ⋮ On the (im)possibility of improving the round diffusion of generalized Feistel structures
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Side-channel resistant crypto for less than 2,300 GE
- Proving resistance against invariant attacks: how to choose the round constants
- Almost involutory recursive MDS diffusion layers
- Midori: A Block Cipher for Low Energy
- Exploring Energy Efficiency of Lightweight Block Ciphers
- The SKINNY Family of Block Ciphers and Its Low-Latency Variant MANTIS
- Automatic Security Evaluation and (Related-key) Differential Characteristic Search: Application to SIMON, PRESENT, LBlock, DES(L) and Other Bit-Oriented Block Ciphers
- Scrutinizing and Improving Impossible Differential Attacks: Applications to CLEFIA, Camellia, LBlock and Simon
- Complementing Feistel Ciphers
- LS-Designs: Bitslice Encryption for Efficient Masked Software Implementations
- CLOC: Authenticated Encryption for Short Input
- Differential Analysis and Meet-in-the-Middle Attack Against Round-Reduced TWINE
- The Simon and Speck Block Ciphers on AVR 8-Bit Microcontrollers
- Structural Evaluation by Generalized Integral Property
- Extended Generalized Feistel Networks Using Matrix Representation
- Implementing Lightweight Block Ciphers on x86 Architectures
- Applying MILP Method to Searching Integral Distinguishers Based on Division Property for 6 Lightweight Block Ciphers
- Extended Generalized Feistel Networks Using Matrix Representation to Propose a New Lightweight Block Cipher: <sc>Lilliput</sc>
- Pushing the Limits: A Very Compact and a Threshold Implementation of AES
- LBlock: A Lightweight Block Cipher
- The Software Performance of Authenticated-Encryption Modes
- The LED Block Cipher
- Piccolo: An Ultra-Lightweight Blockcipher
- Atomic-AES: A Compact Implementation of the AES Encryption/Decryption Core
- On the Construction of Block Ciphers Provably Secure and Not Relying on Any Unproved Hypotheses
- $\textnormal{\textsc{TWINE}}$: A Lightweight Block Cipher for Multiple Platforms
- HIGHT: A New Block Cipher Suitable for Low-Resource Device
- The 128-Bit Blockcipher CLEFIA (Extended Abstract)
- PRESENT: An Ultra-Lightweight Block Cipher
- Improving the Generalized Feistel
- PRINTcipher: A Block Cipher for IC-Printing
- Finding Preimages in Full MD5 Faster Than Exhaustive Search
- KATAN and KTANTAN — A Family of Small and Efficient Hardware-Oriented Block Ciphers
- Cryptanalysis of Skipjack Reduced to 31 Rounds Using Impossible Differentials
- The block cipher Square
- Note on Impossible Differential Attacks
- Threshold Implementations of All 3 ×3 and 4 ×4 S-Boxes
- Differential and Linear Cryptanalysis Using Mixed-Integer Linear Programming
- PRINCE – A Low-Latency Block Cipher for Pervasive Computing Applications
- Blockcipher-Based Authenticated Encryption: How Small Can We Go?
- GIFT: A Small Present
- Bit-Sliding: A Generic Technique for Bit-Serial Implementations of SPN-based Primitives
- New Impossible Differential Search Tool from Design and Cryptanalysis Aspects
This page was built for publication: WARP: revisiting GFN for lightweight 128-bit block cipher
