Add to ORKGIn this article, we propose GIFT-COFB, an Authenticated Encryption with Associated Data (AEAD) scheme, based on the GIFT lightweight block cipher and the COFB lightweight AEAD operating mode. We explain how these two primitives can fit together and the various design adjustments possible for performance and security improvements. We show that our design provides excellent performances in all constrained scenarios, hardware or software, while being based on a provably-secure mode and a well analysed block cipher
The use of a small block length is a common strategy when designing lightweight (tweakable) block ci...
Bit permutation based block ciphers, like PRESENT and GIFT, are well-known for their extreme lightwe...
Lightweight cryptography was developed in response to the increasing need to secure devices for the ...
This paper presents a lightweight blockcipher based authenticated encryption mode mainly focusing on...
GIFT-COFB is a finalist of NIST Lightweight cryptography project that aims at standardizing authenti...
GIFT-COFB is a lightweight AEAD scheme and a submission to the ongoing NIST lightweight cryptography...
GIFT-COFB is a lightweight AEAD scheme and a submission to the ongoing NIST lightweight cryptography...
GIFT-COFB is a lightweight AEAD scheme and a submission to the ongoing NIST lightweight cryptography...
The GIFT family of lightweight block ciphers, published at CHES 2017, offers excellent hardware perf...
In this article, we analyze and investigate two authenticated encryption algorithms: GIFT-COFB and H...
In this article, we propose two new families of very lightweight and efficient authenticated encrypt...
In this article, we revisit the design strategy of PRESENT, leveraging all the advances provided by ...
This paper considers the linear cryptanalyses of Authenticated Encryptions with Associated Data (AEA...
In CHES 2017, Chakraborti et al. proposed COFB, a rate-1 sequential block cipher-based authenticated...
Lightweight cryptography is a viable solution for constrained computational environments that requir...
The use of a small block length is a common strategy when designing lightweight (tweakable) block ci...
Bit permutation based block ciphers, like PRESENT and GIFT, are well-known for their extreme lightwe...
Lightweight cryptography was developed in response to the increasing need to secure devices for the ...
This paper presents a lightweight blockcipher based authenticated encryption mode mainly focusing on...
GIFT-COFB is a finalist of NIST Lightweight cryptography project that aims at standardizing authenti...
GIFT-COFB is a lightweight AEAD scheme and a submission to the ongoing NIST lightweight cryptography...
GIFT-COFB is a lightweight AEAD scheme and a submission to the ongoing NIST lightweight cryptography...
GIFT-COFB is a lightweight AEAD scheme and a submission to the ongoing NIST lightweight cryptography...
The GIFT family of lightweight block ciphers, published at CHES 2017, offers excellent hardware perf...
In this article, we analyze and investigate two authenticated encryption algorithms: GIFT-COFB and H...
In this article, we propose two new families of very lightweight and efficient authenticated encrypt...
In this article, we revisit the design strategy of PRESENT, leveraging all the advances provided by ...
This paper considers the linear cryptanalyses of Authenticated Encryptions with Associated Data (AEA...
In CHES 2017, Chakraborti et al. proposed COFB, a rate-1 sequential block cipher-based authenticated...
Lightweight cryptography is a viable solution for constrained computational environments that requir...
The use of a small block length is a common strategy when designing lightweight (tweakable) block ci...
Bit permutation based block ciphers, like PRESENT and GIFT, are well-known for their extreme lightwe...
Lightweight cryptography was developed in response to the increasing need to secure devices for the ...