Time-memory-data tradeoff (TMD-TO) attacks limit the security level of many classical stream ciphers (like $E_0$, A5/1, Trivium, Grain) to $n/2$, where $n$ denotes the inner state length of the underlying keystream generator. This implies that to withstand TMD tradeoff attacks, the state size should be at least double the key size. In 2015, Armknecht and Mikhalev introduced a new line of research, which pursues the goal of reducing the inner state size of lightweight stream ciphers below this boundary by deploying a key-dependent state update function in a Grain-like stream cipher. Although their design Sprout was broken soon after publication, it has raised interest in the design principle, and a number of related ciphers have been suggest...
In this paper, we study the security of Grain-like small state stream ciphers by fast correlation at...
Stream ciphers are cryptographic primitives belonging to symmetric key cryptography to ensure data c...
Draco is a lightweight stream cipher designed by Hamann et al. in IACR ToSC 2022. It has a Grain-lik...
Abstract. The internal state size of a stream cipher is supposed to be at least twice the key length...
After the introduction of some stream ciphers with the minimal internal state, the design idea of th...
We propose and analyze the LIZARD-construction, a way to construct keystream generator (KSG) based s...
Many modern stream ciphers consist of a keystream generator and a key schedule algorithm. In fielded...
Tradeoff attacks on symmetric ciphers can be considered as the generalization of the exhaustive sear...
It has been common knowledge that for a stream cipher to be secure against generic TMD tradeoff atta...
Various time-memory tradeoffs attacks for stream ciphers have been proposed over the years. However,...
Time-memory-data (TMD) tradeoff attacks limit the security level of many classical stream ciphers (l...
Lizard is a very recently proposed lightweight stream cipher that claims 60 bit security against dis...
In the conference “Fast Software Encryption 2015”, a new line of research was proposed by introducin...
Most stream ciphers used in practice are vulnerable against generic collision attacks, which allow t...
Plantlet is a lightweight stream cipher designed by Mikhalev, Armknecht and Müller in IACR ToSC 2017...
In this paper, we study the security of Grain-like small state stream ciphers by fast correlation at...
Stream ciphers are cryptographic primitives belonging to symmetric key cryptography to ensure data c...
Draco is a lightweight stream cipher designed by Hamann et al. in IACR ToSC 2022. It has a Grain-lik...
Abstract. The internal state size of a stream cipher is supposed to be at least twice the key length...
After the introduction of some stream ciphers with the minimal internal state, the design idea of th...
We propose and analyze the LIZARD-construction, a way to construct keystream generator (KSG) based s...
Many modern stream ciphers consist of a keystream generator and a key schedule algorithm. In fielded...
Tradeoff attacks on symmetric ciphers can be considered as the generalization of the exhaustive sear...
It has been common knowledge that for a stream cipher to be secure against generic TMD tradeoff atta...
Various time-memory tradeoffs attacks for stream ciphers have been proposed over the years. However,...
Time-memory-data (TMD) tradeoff attacks limit the security level of many classical stream ciphers (l...
Lizard is a very recently proposed lightweight stream cipher that claims 60 bit security against dis...
In the conference “Fast Software Encryption 2015”, a new line of research was proposed by introducin...
Most stream ciphers used in practice are vulnerable against generic collision attacks, which allow t...
Plantlet is a lightweight stream cipher designed by Mikhalev, Armknecht and Müller in IACR ToSC 2017...
In this paper, we study the security of Grain-like small state stream ciphers by fast correlation at...
Stream ciphers are cryptographic primitives belonging to symmetric key cryptography to ensure data c...
Draco is a lightweight stream cipher designed by Hamann et al. in IACR ToSC 2022. It has a Grain-lik...