CRYPTOGRAPHYNIST Selects ‘Lightweight Cryptography’ Algorithms to Protect Small Devices
The algorithms are designed to protect data created and transmitted by the Internet of Things and other small electronics.
Lightweight electronics, meet the heavyweight champion for protecting your information: Security experts at the National Institute of Standards and Technology (NIST) have announced a victor in their program to find a worthy defender of data generated by small devices. The winner, a group of cryptographic algorithms called Ascon, will be published as NIST’s lightweight cryptography standard later in 2023.
The chosen algorithms are designed to protect information created and transmitted by the Internet of Things (IoT), including its myriad tiny sensors and actuators. They are also designed for other miniature technologies such as implanted medical devices, stress detectors inside roads and bridges, and keyless entry fobs for vehicles. Devices like these need “lightweight cryptography” — protection that uses the limited amount of electronic resources they possess. According to NIST computer scientist Kerry McKay, the newly selected algorithms should be appropriate for most forms of tiny tech.
“The world is moving toward using small devices for lots of tasks ranging from sensing to identification to machine control, and because these small devices have limited resources, they need security that has a compact implementation,” she said. “These algorithms should cover most devices that have these sorts of resource constraints.”
To determine the strongest and most efficient lightweight algorithms, NIST held a development program that took several years, first communicating with industry and other organizations to understand their needs and then requesting potential solutions from the world’s cryptography community in 2018. After receiving 57 submissions, McKay and mathematician Meltem Sönmez Turan managed a multi-round public review process in which cryptographers examined and attempted to find weaknesses in the candidates, eventually whittling them down to 10 finalists before selecting the winner.
“We considered a number of criteria to be important,” McKay said. “The ability to provide security was paramount, but we also had to consider factors such as a candidate algorithm’s performance and flexibility in terms of speed, size and energy use. In the end we made a selection that was a good all-around choice.”
Ascon was developed in 2014 by a team of cryptographers from Graz University of Technology, Infineon Technologies, Lamarr Security Research and Radboud University. It was selected in 2019 as the primary choice for lightweight authenticated encryption in the final portfolio of the CAESAR competition, a sign that Ascon had withstood years of examination by cryptographers — a characteristic the NIST team also valued, McKay said.