The advances in the miniaturisation of electronic devices and the deployment of cheaper
and faster data networks have propelled environments augmented with contextual and real …

Lightweight cryptography is a rapidly developing research field. Its main goal is to provide
security for devices with fewer resources. These limited‐resource devices implement …

Public key cryptography protocols, such as RSA and elliptic curve cryptography, will be
rendered insecure by Shor's algorithm when large-scale quantum computers are built …

The current standalone deep learning framework tends to result in overfitting and low utility.
This problem can be addressed by either a centralized framework that deploys a central …

NIST-approved cryptographic standards were designed to perform well using general-
purpose computers. In recent years, there has been increased deployment of small …

We explore cryptographic primitives with low multiplicative complexity. This is motivated by
recent progress in practical applications of secure multi-party computation (MPC), fully …

Designing an efficient cipher was always a delicate balance between linear and non-linear
operations. This goes back to the design of DES, and in fact all the way back to the seminal …

This paper presents a block cipher that is optimized with respect to latency when
implemented in hardware. Such ciphers are desirable for many future pervasive applications …

We present a new block cipher LED. While dedicated to compact hardware implementation,
and offering the smallest silicon footprint among comparable block ciphers, the cipher has …

Two lightweight block cipher families, Simon and Speck, have been proposed by
researchers from the NSA recently. In this paper, we introduce Simeck, a new family of …