A graphene key for computing.
Current silicon technology exploits microscopic differences between computing components to create secure keys, but AI techniques can be used to predict defects and gain access to data. Penn State researchers have designed a way to make the encrypted keys harder to crack using graphene.
The results are presented in Nature Electronics: https://www.nature.com/articles/s41928-021-00569-x
#sciencenews #AI #computing #graphene
Current silicon technology exploits microscopic differences between computing components to create secure keys, but AI techniques can be used to predict defects and gain access to data. Penn State researchers have designed a way to make the encrypted keys harder to crack using graphene.
The results are presented in Nature Electronics: https://www.nature.com/articles/s41928-021-00569-x
#sciencenews #AI #computing #graphene
Nature
Graphene-based physically unclonable functions that are reconfigurable and resilient to machine learning attacks
Nature Electronics - Disorder in the charge carrier transport of graphene-based field-effect transistors can be used to construct physically unclonable functions that are secure and can withstand...